DE8005346U1 - TURNING COUPLING FOR LIGHTWAVE GUIDE - Google Patents

Description

Licentia Patent-Verwaltungs-GmbH Z13 PTL-BK / Th / ma

Theodor-Stern-Kai 1 BK 80/1

D-6000 Frankfurt 70

Rotary coupling for fiber optic cables

The innovation relates to a rotary coupling for optical fibers, consisting of two optical fibers that receive the optical fibers coaxially aligned coupling parts which are connected to one another via a pivot bearing so that they can be rotated axially against each other.

It is often necessary to transmit signals between parts of the system or apparatus that cause mutual rotational movements carry out what happens, for example, with program-controlled machine tools or radar systems, etc. Rotary couplings with sliding contacts are used for the transmission of electrical signals are equipped. A disadvantage here is that the sliding contacts wear out, which reduces the transmission behavior such rotary couplings is deteriorated. In contrast, they have rotary couplings for fiber optic cables the advantage that no mechanical contact has to take place between the signal-carrying parts. However, measures must be taken to

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Ensure sufficient coupling of the light from one optical waveguide into the opposite one, even if when turning the rotary coupling a slight eccentricity between the optically coupled optical fibers occurs. To solve this problem are according to DE-OS 28 00 249 to be coupled to each other very thin optical waveguide contacted the face with pieces of fiber, the cross section of which is larger than that of the optical waveguide. The end faces of these fiber pieces are in the two coupling parts that can be rotated relative to one another stored so that they face each other without touching. By the fact that the transmission of light over the interface of the rotary coupling takes place by means of pieces of fiber with a relatively large cross-section, although the Attenuation with low eccentricity of the coupling parts increased significantly less than with direct coupling the fiber optic cable with very small end faces. However, a very precise centricity is still required, to keep the transmission loss as low as possible. In addition, the joints between the Optical waveguides with a small cross-section and the fiber pieces with a larger cross-section have a detrimental effect on transmission attenuation the end.

The innovation is now based on the task of creating a rotary joint for fiber optic cables, one only requires little precision with respect to the centricity of the coupling parts which can be rotated relative to one another and thereby still met high demands on the transmission loss.

The object is achieved according to the invention in that in

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in a manner known per se, the optical coupling of the lightwaves ' §, lenleiter takes place via two focussing elements which widen the light beam, a focussing element being arranged in each of the two coupling parts. Lenses, for example, can be used as focusing elements.

Based on the embodiment shown in the drawing, the innovation is explained in more detail below.

The figure shows a rotary coupling, the two coupling parts 1 and 2 of which are coaxially aligned with one another and over two Rolling bearings 3 and 4 are connected to one another in an axially rotatable manner. The roller bearings are between the outside of one coupling part 1 and the inside of the other coupling part 2 which towers above it.

Notwithstanding the rotary bearing used in this embodiment, the two coupling parts can be on each other way axially rotatable with one another - releasably or not releasably - be connected. In the coupling part 1 is an optical fiber 5 centrally mounted. Its end face is at the focal point of a lens 6. In the opposite Coupling part 2, the optical waveguide 7 corresponding to the optical waveguide 5 is also centric and mounted with its end face at the focal point of a lens 8. The two lenses 6 and 8 widen the out of the optical waveguide 5 or 7 coming light beam in the transition area between them from a coupling part to the other on. Due to the beam expansion, this arrangement is quite insensitive to transversal or longitudinal offset of the two coupling parts 1 and 2. Such a rotary coupling is therefore not required either

BK 80/1

to be manufactured with the utmost precision, which has a favorable effect on the manufacturing costs. It is also advantageous that penetrating into the rotary coupling and deposited on the lenses dirt particles due to the large Beam aperture hardly disturb the light transmission.

Claims (2)

I 4 · Licentia Patent-Verwaltungs-GmbH Z13 PTL-BK / Th / ma Theodor-Stern-Kai 1 BK 80/1 D-6000 Frankfurt 70 protection claims 1. Rotary coupling for optical waveguides, consisting of two coupling parts receiving the optical waveguides coaxially aligned with one another, which are connected to one another via a pivot bearing so that they can be rotated axially against one another, characterized in that the optical coupling of the optical waveguide (5 , 7) takes place via two focussing elements (6, 8) which widen the light beam, a focussing element being arranged in each of the two coupling parts (1, 2). 2. Rotary coupling for optical waveguides according to claim 1, characterized in that lenses (6, 8) are used as focusing elements.