DE1972969U - TELESCOPIC ANTENNA FOR A PORTABLE RADIO DEVICE. - Google Patents

Description

Esslingen a, M » j

Ottilienstrasse 19th

Utility Model Application s telescopic antenna for a portable radio "The innovation" refers! A telescopic antenna for a portable Punk gets, the telescope is a slid in ETichtbenutzung in the device housing and having _s with a joint that was pulled out from the control cabinet telescope is swiveled into the desired angular position (Swivel joint) ο A special friction means is provided, which counteracts the rotation of the telescopic base, which is pulled into a guide sleeve, about its axis *

With the innovation, the task is solved, a particularly simple and to create effective execution of the mentioned friction means for the telescopic antenna be described »

The innovation is "that is present in the guide sleeve a curved to a to a longitudinal slot closed cylinder leaf spring (cylinder" spring) on the inner wall of the guide sleeve under its spring pressure and that the cylinder spring has a beveled end face _s along which a mounted on the telescopic leg The stop pin slides into the slot in the cylinder spring.

The neuerungsgemasse cylinder spring has the Yorteil _s that it has a relatively large diameter at a given telescope diameter

As a result, the two resilient legs of the cylinder spring are quite long. One can therefore choose a relatively large wall thickness for the cylinder spring, thereby creating a large pressure spring ₅ without the risk of exceeding the elastic limit at the required for insertion of the cylinder spring in the guide sleeve is spring deflection. In addition, a sufficiently uniform friction of the cylinder spring in the guide sleeve generated by the contact pressure can be achieved in volume production.

An advantageous embodiment of the telescopic antenna according to the invention consists in that one end face of the cylinder spring

an inwardly projecting shoulder of the guide sleeve and, J one punched out of the cylinder spring and protruding outward Tongue rests with its frontal surface on a shoulder, which is supported by a Enlargement with a larger diameter is formed in the guide sleeve » With this configuration, the cylinder spring is very simple fastened in the guide sleeve, you only need to be compressed a little and pushed into the guide sleeve until the punched out Tongue engages in the extension of the spring sleeve * The figures show an embodiment of the inventive Telescopic antenna. Figure 1 is one view, Figures 2 and 3 are two Representations rotated by 9o against each other, partially cut, on an enlarged scale.

A telescopic antenna consisting of several telescopic elements 1 with a closing button 2 is in a joint 3 about an axis 4 perpendicular to the telescope axis, opposite a telescopic base 5 pivotable, which has the same outside diameter as the outermost one Tube of the antenna telescope 1 ,.

The antenna telescope 1 and the telescopic base 5 are cylindrical in a circle Guide sleeve 6 with a cut out? inwardly resilient tongue 7 displaceable. The tongue 7 does the necessary Friction and the required contact pressure during longitudinal displacement of the telescope 1 and the telescopic base 5 in the guide sleeve 6 » The guide sleeve 6 has a sleeve part 8 with a slightly larger one Inside diameter, in which a cylinder spring 9 is inserted in this way is that its end face rests on the shoulder between the guide sleeve 6 and the enlarged sleeve part 8. One from the cylinder spring 9 punched out and outwardly resilient tongue Io engages in an enlargement 11 of the guide sleeve 6, which has an even larger diameter than the sleeve part 8. The end face of the tongue Io stands up at the shoulder, which acts as a limit to the extension <, / "

11 was created »

The cylinder spring 9 has a beveled end face 12 on which a stop pin IJ attached to the telescopic base 5 slides along _? When the telescopic base 5 is pulled into the cylinder spring 9, the stop pin IJ enters the slot 14 of the cylinder spring 9 When the antenna telescope 1 including the swivel joint 3 is pulled out of the guide sleeve 6, the cylinder spring 9 is pushed through the Ansehlagstift 13 taken when the telescopic base 5 is rotated about its own axis. The friction between the cylinder spring 9 and the sleeve part 8 is so great _? that the telescope 1, angled by 9 ° in the swivel joint J and extended, remains stationary in every position, but another position can be rotated by hand against the spring force of the cylinder spring 9 i.

In the guide sleeve 6, a protective tube 15 is inserted and soldered through attached to it «The protective tube 15 has such a large inner diameter that the antenna telescope 1 and the antenna base 5 with the stop pin on 13 slide in it without significant friction »

Claims (1)

¥! A UH "M * J J I \" t I claims for protection 1. Telescopic antenna for a portable radio _? the telescope is when not in use in the device housing insertable and a G-élénk, with which the extracted from the device housing telescope in the desired angular position is pivotable (pivot - joint) and in which is provided a special friction means ISTJ the rotation of the counteracts the telescopic base drawn into a guide sleeve about its axis, characterized in that a leaf spring (cylinder spring) (9) bent into a cylinder closed except for a longitudinal slot (14) on the inner wall of the guide sleeve in the guide sleeve (6/8) (6/8) rests under their spring pressure and that the cylinder spring (9) has a beveled end face (l2) ₃ along which a stop pin (13) attached to the telescopic base (5) slides into the slot (14) of the cylinder spring (9) » 2, telescopic antenna according to claim 1 _? characterized _s that an end surface of the cylinder spring (9) rests against an inwardly projecting shoulder of the guide sleeve (6/8) and a projecting punched out of the cylinder spring (9) and outwardly tongue (l #) bears with its end face against a shoulder ₉ which is formed by an enlargement (ll) with a larger diameter in the guide sleeve (6/8) *