DE2918024C2 - Adjustment device for an optical fiber connection with lens coupling - Google Patents

Description

The invention relates to an optical fiber connection with lens coupling, in which by means of an adjusting device the optical fibers with their end faces in the focal plane of the associated lens or lens systems be positioned so that the rays from the lens or the lens system parallel to it Exit reference axis which coincides with the cylinder axis of the lens or the lens system and the Adjusting device receiving guide sleeve coincides.

In the case of an optical fiber connection in which optical fibers are optically coupled to one another via lenses, the amount of coupling attenuation depends on how exactly each optical fiber has its end face in that focal point is positioned in the focal plane of the respective lenses which ensures that the beam emerges from the lens parallel to its reference axis.

In DE-OS 26 06 255 is an optical fiber connection described with optical coupling, in which the optical fibers are arranged in capillary tubes so that the end faces of the optical fibers are flush with the end faces of the capillary tubes and the Capillary tubes are positioned with their end faces in the focal points of the lenses.

According to DE-OS 26 06 255, the capillary tube with the therein is in each part of the optical fiber connection mounted optical fiber housed in a tube part, the axis of which coincides with the minor axis of the lens, on which the focal point of the lens is located. The capillary tube can only be inside the longitudinal direction of the tube part in order to position the end face of the optical fiber in the focal point. For the positioning of the optical fiber is therefore only available in one degree of freedom, namely shifting in Longitudinal direction. Here are ideal, in reality they are not

ίο Assuming that there are lenses that only have one on the minor axis - this coincides with the reference axis - have a focal point.

The invention is therefore based on the object of an adjusting device accommodated in the optical fiber connection to create more than just a degree of freedom in the positioning of the optical fiber in the focal point of the lens.

The object is achieved according to the invention in that in front of the lens or the lens system a Adjusting ball is rotatably mounted, the center of which lies on the reference axis of the lens or the lens system, wherein the adjustment ball is arranged so far in front of the lens or the lens system that focal points from the Focal plane in the interior of the adjustment ball, but not fall in the center, that the adjustment ball with a through hole is provided through the center point, in which the encased optical fiber in Is mounted displaceably and lockable in the longitudinal direction, the sleeve with the optical fiber from the The guide sleeve of the optical fiber connection protrudes, and that the adjustment ball can be locked.

The bore in the adjustment ball expediently has that of the lens or the lens system facing side a widening. It is also useful to lock the adjusting ball by means of to make a threaded ring screwed on the inside of the guide sleeve, which the Adjusting ball presses against a stop provided in the guide sleeve.

The invention will now be explained in more detail using the exemplary embodiment shown in the drawing will.

The figure shows one of the two for an optical fiber connection belonging connecting parts, both of which have the same structure.

In the front part of a guide sleeve 1 is an optical focusing element, for example a lens 2, housed, wherein the reference axis of the lens 2 coincides with the cylinder axis of the guide sleeve.

so that the coupling of the two optical fibers in both parts of the connection has as little attenuation as possible is, the optical fiber must with its end face exactly in that focal point in the focal plane of the associated lens are brought, which ensures that the beam emerging from the lens is parallel to whose reference axis lies. In order to be able to meet these positioning requirements, this is done in a cylinder 4 captured optical fiber end 3 into the hole 5 of an adjusting ball 6 that goes through the center point housed. This Kustierkugel 6, whose center is on the axis of the guide sleeve 1, is in front of the Lens 2 arranged rotatably, at such a distance that focal points from the focal plane of the Lens 2 within the embedded in the adjustment ball

h5 but not hole 5 in its center. Man can turn the adjusting ball so that any focal point from the focal plane lies in the hole. The introduced into the bore 5 cylinder 4 with the

The optical fiber 3 contained therein protrudes so far from the adjusting ball 6 and the guide sleeve 1 of the optical fiber connection found out that the cylinder also serves as an extended lever arm, with which by hand the adjusting ball 6 can rotate around its center

The rotary movement of the adjusting ball 6 allows two degrees of freedom for the positioning of the optical fiber. A third degree of freedom is given by the fact that the cylinder 4 is also within the bore 5 of the Adjusting ball 6 can be moved in the axial direction. On the jet exit side of the ball, the Bore 5 a conical widening 7 so that the

Beam path, which is subject to an aperture enlargement on the way to the lens, is not disturbed.

After the optical fiber has been adjusted, the adjustment ball 6 is locked with a threaded ring 8 and the cylinder 4 is fixed in the bore 5 (e.g. by means of Adhere). The threaded ring S, which is arranged screwably on the inside of the guide sleeve 1, presses the Adjusting ball 6 against a beveled stop 9 in the guide sleeve, so that in the locked state the Adjusting ball 6 is firmly clamped and secured between the threaded ring 8 and the stop S

1 sheet of drawings

Claims (3)

Patent claims: 1. Optical fiber connection with lens coupling, in which the optical fibers are adjusted by means of an adjusting device with their end faces in the focal plane of the associated lens or the lens system so be positioned so that the rays emerge from the lens or the lens system parallel to its reference axis, which coincides with the cylinder axis of the the lens or the lens system and the guide sleeve accommodating the adjustment device coincide, characterized in that an adjusting ball in front of the lens or the lens system (2) (6) is rotatably mounted, the center of which lies on the reference axis of the lens or the lens system, wherein the adjusting ball (6) is arranged so far in front of the lens or the lens system that focal points fall from the focal plane into the interior of the Justicrkugel, but not in its center, that the Adjusting ball (6) is provided with a through hole (5) through the center point, in which the in a sleeve (4) held optical fiber (3) is mounted displaceably and lockable in the longitudinal direction, wherein the sleeve with the optical fiber protrudes from the guide sleeve (1) of the optical fiber connection, and that the adjusting ball (6) can be locked. 2. Optical fiber connection according to claim 1, characterized in that the bore (5) in the Adjusting ball (6) on the side facing the lens or the lens system (2) has a widening (7) owns. 3. Optical fiber connection according to claim 1, characterized in that a threaded ring (8) on the inside of the guide sleeve (1) is arranged screwable, which in the locked state of the Adjusting ball (6) presses this against a stop (9) provided in the guide sleeve.