DE7341199U - Antenna with a flexible antenna rod made of a self-supporting helical spring and an elastic layer surrounding the helical spring - Google Patents

Description

Antenna with a flexible antenna rod made of a self-supporting coil spring and a die Coil spring surrounding elastic layer

The invention relates to an antenna with a flexible antenna rod made of a self-supporting helical spring and a the elastic layer surrounding the coil spring.

Antennas with a flexible antenna rod made of a self-supporting Helical springs that are surrounded by an elastic layer have the advantage of a relatively small overall height. Another important advantage is the high elasticity of the antenna rod. Namely, if the antenna to the Example is used as a vehicle antenna, then the Do not break the antenna rod, for example when driving through a low garage door or an automatic car wash, rather it evades every obstacle and then straightens itself up again due to its elasticity.

In a known embodiment, the antenna rod consists of a helical spring with a plastic tube shrunk onto it. Will such an antenna; bent by about 90 ° when bumping into an obstacle, they form on the inside of the bend severe wrinkles and, if the bending takes place more frequently, even cracks, so that after a while the coil spring is exposed and is exposed to corrosion. Tests have shown that one

antenna

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Antenna with shrink tubing after at least 900 vehicle washes is damaged and therefore unusable.

The invention is based on the object of an antenna create the strong mechanical stresses, as they occur, for example, in an automatic washing system, withstands.

According to the invention this object is achieved in that the elastic layer made of an insulating material gununi-like There is elasticity in which the coil spring is embedded.

Due to the high elasticity of rubber or rubber-like materials, the strong wrinkles when turning of the antenna rod away, and cracking only occurs when the rubber layer, for example due to abrasion has become relatively thin. With the brush abrasion occurring in a "normal automatic washing system the antenna can withstand ten thousand vehicle washes, d. H. so about ten to fifteen times as many washes as an antenna with shrink tubing.

The invention is illustrated by means of one in the drawing, presented embodiment described and explained. In the drawing:

Fig.

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1 shows a view of an antenna with a flexible antenna rod, partly in section, and

Fig. 2 is an exploded view of the nearer end of the antenna and the means to be attached thereto for fastening the antenna to a base.

The antenna 1 shown in Fig. 1 serves: for example as a transmission ' and receiving antenna for a radio transceiver installed in a motor vehicle. It consists of a flexible antenna rod from a self-supporting coil spring 3, which is in an elastic Layer 4 is vulcanized from a rubber material. A synthetic rubber material is preferably suitable Rubber, for example Buna or neoprene. The coil spring 3 is preferably made of a spring-hard wire stainless steel or a silver-plated spring steel wire.

The upper end of the coil spring 3 is closed by a rivet-shaped plug 5 which, like the upper end of the elastic layer 4 is tightly enclosed by a cap 6. The lower end of the antenna rod 2 is preferably in a metallic hollow cylindrical receiving part 7, which has a hexagonal shoulder 8 and a threaded shoulder 9 in the axial direction. The threaded extension 9 can be screwed into a foot piece fixed in a wall of the vehicle, which is shown in the drawing is omitted for the sake of clarity. There is thus a detachable connection between the antenna 1 and the vehicle wall.

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No possible type of fastening of the antenna rod 2 in the ι ßnahmeteil 7 is shown in FIG. The hollow cylindrical receiving part 7 contains in its cylindrical opening IO a circle 11 which divides the opening 10 into an upper part 12 and a lower part 13. The free end of the antenna rod 2, the end face of which is supported on the collar 11, fits into the upper part 12 of the opening 10. A metallic holding part 14 with its screw attachment 15 can be inserted into the lower part 13 of the opening 10, a cylindrical attachment 16 adjoining the screw attachment 15 being guided in the opening of the collar 11. The screw attachment 15 can be screwed into the self-supporting helical spring 3 of the antenna rod 2 by means of a screwing tool, not shown in the drawing, which engages in slots 17 of a collar 18 of the holding part 14.

The diameter and pitch of the thread of the screw boss 15 are dimensioned so that the thread corresponds to the thread through the coil spring 3 given internal thread. The collar 18 goes into an axial connector used for electrical connection of the antenna 19 over.

The rubber material between the individual turns of the self-supporting Helical spring 3 acts to a certain extent as a screw lock for screw attachment 15.

The antenna has, for example, a length of 150 mm and one Diameter of 10 now. For vulcanizing the coil spring 3

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The following is also to be said about the Gumin! material. In practice one can proceed in such a way that one first attaches the helical spring 3 to a cylindrical mandrel that is slightly longer than that Coil spring. The coil spring is then wrapped in a piece of starting rubber material and covered with both sides the ends of the mandrel protruding from the helical spring are placed in "corresponding receptacles of a mold made up of two mold halves. Then the two mold halves are pressed together and heated so that the rubber material is vulcanized. After this Vulcanizing, the mold is opened and the finished antenna rod is removed.

As can be seen from Figs. 1 and 2, the rubber material arrives when vulcanizing also between the individual coils of the helical spring that are wound at a distance.

The antenna is not only suitable as a transmitting and receiving antenna for radiotelephones built into motor vehicles, but also as a receiving antenna for radio broadcasts.

Incidentally, the material used for the elastic layer is not just a rubber material such as natural or synthetic Rubber in question, but generally an insulating material of rubber-like elasticity, for example also a plastic such as polyvinyl chloride, into which the coil spring is preferably injected.

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Claims (7)

48/73 ro- PLI Scht / Li 15.11. 1973 PdLene claims 1. Antenna with a flexible antenna rod made of a self-supporting helical spring and an elastic layer surrounding the helical spring, characterized in that the elastic layer (4) consists of an insulating material of rubber-like elasticity in which the helical .. spring (3) is embedded . 2. Antenna according to claim 1, characterized in that the The material is a natural or synthetic rubber into which the helical spring (3) is vulcanized. 3. Antenna according to claim 1, characterized in that the The material is a plastic into which the helical spring (3) is injected. 4. Antenna according to claim 3, characterized in that the Plastic is a polyvinyl chloride. 5. Antenna according to claim 1, characterized in that the helical spring (3) consists of a spring-hard wire made of stainless Steel is made. 6. · Antenna according to claim 1, characterized in that the The coil spring (3) consists of a silver-plated spring steel wire. 7341199 05/07/75 "Mf «···· · t« ti «» tan 7. Antenna according to claim 1, 5 or 6, characterized in that for fastening the antenna rod (2) on a lower • a metallic Ilalteil (14) is provided whose at one end a thread dimensioned in such a way that it can be screwed into the helical spring (3) is deceptive 7341199 05/07/75