DE2611658C3 - Adjustment device for optical fibers - Google Patents

Description

15th

The present invention is concerned with an optical alignment device for axial alignment two optical fibers, the optical fibers, with their end faces directed towards one another, in two mutually movable bearing blocks are held and adjustable in their position to each other.

The optical fibers used to transmit light as a carrier for high-frequency signals are on Separation points connected to one another. Such a connection is to be carried out in such a way that at this connection point the losses of transmission energy can be kept very small. This can only be achieved by that once the end faces of the glass fiber ends cut exactly parallel S'nd and the junction of the more or less axially offset optical fibers between the two fiber cores no axial Has offset.

From Bell System Technical Journa: Vol. 50, pp. 3153-3158, Dec. 1971 is an adjustment device for two optical fibers known, in which these are held in bearing blocks, the mutual positioning allow the optical fibers in all directions.

The object of the invention is now to provide such an adjusting device with a simple Specify device for determining the mutual axial alignment of the two optical fibers.

According to the invention, this object is achieved in that one on the end faces of the two optical fibers oriented optics that can be swiveled out and swiveled in between the bearing blocks, the position of the end faces and which makes visible fiber optic cores recognizable to one another.

This arrangement is very simple to use This represents an optimal, axial adjustment of the two abutting end faces of the fiber optic cores guaranteed.

The invention is described in more detail with the aid of the drawing. The individual figures represent ■> ">

F i g. I a view of the adjustment device from the front with the optics pivoted in,

2 shows the view of the adjusting device from the side with the optics pivoted in,

Fig. 3 is a view of the adjusting device from the front m> with swiveled optics.

4 shows the view of the adjusting device from the Side with swiveled optics,

F i g. 5 shows a connection point between two optical fibers in a view from the side and FIG

6 a section through an optical fiber with Axially offset pin made visible.

The in the F i g. 1 adjusting device shown in a view from the front consists of a base plate 1, on which the two storage blocks that can be moved against each other 2 and 3 are stored in a guide (not shown). The bearing block 2 is with this Embodiment mounted firmly on the base plate 1, while the bearing block 3 by means of a rotary knob 4 can be moved and locked in the horizontal direction.

These two bearing blocks 2 and 3 each take an optical fiber 7, each provided with a splice part 5 and 6 and 8 in a guide and are each held in their bearing block 2 and 3 in their position.

Each optical fiber 7 and 8 is in its holder of each of a light source 9 and 10 illuminated from the side through an opening in the splice part, the Light penetrates through the outer jacket of the optical fibers 7 and 8. The end faces show on this side Illumination a dark, axially offset fiber optic core and a brightly lit fiber optic jacket.

The distance of the two bearing blocks 2 and 3 from one another is such that an optic 11 attached to the base plate 1 so that it can pivot without play between the two bearing blocks 2 and 3 fits between the two bearing blocks 2 and 3 with their optical fibers (movement in direction A).

This optic 11 is designed so that the two end faces of the optical fibers 7 and 8 are visible and the optical fiber cores 14 can be brought to exactly coincide with one another. The Fig.6 shows a cross section through an optical fiber 7/8 with an axially offset core 14 made visible.

In Figure 2, the adjusting device is in side view shown. Their position designations correspond to those of FIG. 1.

This setting for the common coverage of the two Spleißteile 5 and 6 is achieved by two mutually perpendicular adjustment screws 12 and 13. If both Lichtleitfaserkerne 14 made to coincide with each other, the optic 11 is again in its starting position swung back (direction G) and the bearing block 3 pushed against the bearing block 2 until the two splice parts 5 and 6 meet.

This situation is shown in FIG. 3 reproduced. The two splice parts 5 and 6 butt against each other and the Optic 11 is folded back.

4 shows the adjusting device with the folded back Optics 11 according to FIG. 3, but in a view from the side. The item names correspond to those in FIG. 1.

The two splice parts 5 and 6 are after they meet by gluing or welding firmly connected. Two interconnected splice parts 5 and 6 with their optical fibers 7 and 8 FIG. 1 shows. 5 in a view from the side.

1 sheet of drawings

Claims (1)

Claim: Optical adjustment device for the axial alignment of two optical fibers, whereby the optical fibers, with their end faces facing each other, held in two mutually movable bearing blocks and are adjustable in their position to each other, characterized in that one on the End faces of the two optical fibers (5/7, 6/8) aligned and between the bearing blocks (2,3) and pivotable optics (11) the position of the end faces and the optical fiber cores made visible makes recognizable to each other. IO