DE3833228C1 - Method for the production of an optical waveguide connection (joint) - Google Patents

Abstract

To produce optical waveguide connections of low loss (attenuation), it is important that the optical waveguide ends are precisely adjusted with respect to one another. Connections are known in which the optical waveguide ends are introduced into little tubes and adjusted. To prevent grating, the walls of the little tubes, the sharp edges of the optical waveguide ends have to be rounded, involving a large outlay. In the invention, two optical waveguide ends (1) to be connected to one another are inserted into the groove of a receptacle (3) and displaced towards one another. A pressure part (4) which presses the optical waveguides into the groove is fastened between the legs of the receptacle (3) and the legs of the receptacle (3) are bent towards one another. The optical waveguide ends (1) are held in the groove by the pressure part (4). Mechanical splice connection for optical waveguides. <IMAGE>

Description

The present invention relates to a method for Establish an optical fiber connection after Preamble of claim 1.

From OS-DE 32 44 982 A1 is a method for manufacturing an optical fiber connection known. This will start with a steel wire in a tube, the inside diameter of which Compared to the fiber diameter is relatively large and that a deformable material is introduced. The Cross-sectional dimensions of the steel wire correspond to those the optical fibers to be coupled together. The tube is pressed together with a crimping tool, whereby the inner clear width to the diameter of the Steel wire reduced. Then the steel wire pulled out of the tube again. To one Everyone makes an optical fiber connection An optical fiber into the squeezed tube introduced. Another possibility is that the Optical fibers are inserted into the tube and this is squeezed around the joint. To the It is inserting the optical fiber into the tube sensible, the sharp edges of the fiber end faces to round off. This is done to avoid the edges when inserting the fiber ends from the inner wall of the Tube particles lift off on the fiber end faces stick and to increase the damping of the Connect. To have to  not just a tube, possibly a wire and a crimping tool can be provided, but also the End faces of the optical fibers must be machined be so that the attenuation of the connection is low. A Processing of the fiber optic face is at Laying fiber optic cables outdoors problematic. For such applications, the Connection can be easily established.

DD 2 28 654 A1 is a splice connector for Optical fiber known, the V-shaped middle part with sleeve-like guides on both sides. The Optical fiber ends are in the middle and are held by the guides. At the joint of the Fiber optic ends is an elastically deformable, trapezoidal wedge applied by crimping tongues located on the middle part is fixed.

From EP 65 096 B1 is a connector for Optical fiber ends known to have elastic means has a groove. In the groove are the Optical fiber ends inserted. It is a means of Deformation of the elastic means is provided. The Deformation of the elastic means leads to Deformation of the groove so that pressure on the walls Use fiber optic cables and align them with each other and set.

While fixing the fiber optic ends the elastic means are constantly under tension, which is disadvantageous for splice connectors for continuous use can impact.

Based on this state of the art, it is the task of Invention, a method of manufacturing a Optical fiber connection specify the attenuation the connection established is as low as possible.

The object is achieved by the features of claim 1 solved.

Advantageous developments of the method are in the Subclaims 2 to 5 included.

In optical fiber technology it is known per se a V-groove to use when two fiber optic cables should be adjusted to each other. To be a durable one One can create an optical fiber connection Provide spring system that the fiber optic means Holds spring force in the V-groove. Such a system as it is from the PTT 4/1982 bulletin technique on page 185, left Column that emerges takes up significantly more space than the optical waveguide connection according to the invention.

The invention is a safe way to To establish an optical fiber connection with low attenuation. The fiber optic ends do not have to be separate to be edited. It is advantageous that the Image with inserted, fixed fiber optic ends is in a relaxed state. Just for making the The elastic receptacle is located in the connection tense state. A defined position and fixation of the Optical fiber is reached. Made of thin tape material precise V-grooves can be produced inexpensively, the one in the bottom of the groove has a radius that is smaller than half The radius of an optical fiber is to ensure and thus an exact two-line guidance of the optical waveguide  represent. Two to be connected Optical fiber ends are inserted into a receptacle. This process can be carried out so that the sharp edges of the fiber optic ends no particles can stand out from the recording. To do this, the Optical fiber ends, for example, in one to the bottom of the groove vertical direction. Care should be taken that the end faces of the fiber optic ends if possible lie against each other for a good coupling guarantee. A printed part is in the recording snapped into place. The legs of the angle part are due elastic restoring forces moved against each other, the The pressure part is deformed and the slipping Optical fiber ends prevented in the groove. The printing part can be one-sided with the recording, for example on a free leg end, be connected. This is an advantage because the printed part can no longer be lost and that Attach the pressure part to the legs of the holder is facilitated. The connection can be flexible be designed to easily into the optical fiber To be able to insert recording. An outer corner part that around the recording is attached provides further protection the connection and increases the stability of the arrangement. In addition, the outer angle part is used as an interception of Suitable for primary and secondary protection of the fiber. It is expedient to provide an immersion medium, in order as possible to achieve low attenuation values of the connection.

An embodiment of the invention is based on the Drawings explained. It shows

Fig. 1 is a cross section through an arrangement with optical fiber ends for making a fiber optic link,

Fig. 2 cross section through an optical fiber connection with optical fiber end.

In order to produce an optical waveguide connection according to the invention with elastically deformable legs, two optical waveguide ends 1 are first of all offset at the end, ie the primary protection is removed. Then the optical fiber ends 1 are inserted into a groove. The groove is formed by two elastically deformable legs, which are part of a receptacle 3 . In order to keep loss losses low, the end faces of the fiber optic ends should lie exactly against each other. The free ends 6 of the legs are angled towards the groove. A pressure part 4 , which is V-shaped in cross section, points with its tip toward the ends of the optical waveguide 1 , and its side parts engage under the angled free ends 6 of the receptacle 3 . The tip of the pressure part 4 touches the ends of the optical fibers. The legs are bent apart to insert the pressure part. The pressure part is then inserted and the legs close around the pressure part when the legs move back into their original position, which is due to the elasticity. The pressure part in the V-groove of the receptacle holds the fiber ends securely in a precise position.

To protect the optical waveguide connection, an additional angle plate 5 can be provided, at the angle of which the receptacle 3 with optical fiber ends 1 and pressure part 4 is placed.

Due to the inventive design of the pressure part 4 and the receptacle 3 , the pressure part 4 is deformed when the legs of the receptacle 3 are bent together and, because of its excess length, exerts a force on the in comparison with the free length between the angled free end 6 of a leg and one of the optical waveguide ends 1 Fiber optic ends, which holds them in the groove. An exact three-line guidance of the optical waveguide ends 1 and thus an exact adjustment and fixing of the optical waveguide ends to one another is ensured. If the outer angle part 5 is selected to be somewhat longer than the receptacle 3 , it can serve as a catch for the primary and secondary protection of the fiber after being compressed, since it tightly encloses this outside the receptacle 3 at the edge of the connection.

Claims (5)

1. Method for producing an optical fiber connection for two optical fiber ends to be connected to one another, with the following method steps:

• a) The two fiber optic ends ( 1 ) are inserted into a groove of a receptacle ( 3 ), the receptacle ( 3 ) having two elastically deformable legs.
• b) The groove of the receptacle ( 3 ) is formed from the two elastically deformable legs of the receptacle ( 3 ).
• c) A pressure part ( 4 ) is fastened between the legs in such a way that the optical fiber ends ( 1 ) are held in the groove by the pressure part ( 4 ).
• d) The pressure part ( 4 ) is made of V-shaped material in cross section.
• e) The pressure part ( 4 ) is snapped under the free leg ends ( 6 ) of the receptacle, which are angled towards the groove.
• f) The legs of the receptacle (3) move due to elastic restoring forces against each other, whereby the pressure part (4) exerts a force on the optical fiber ends (1), which holds the optical fiber ends (1) in the groove.

2. A method for producing an optical waveguide connection according to claim 1, characterized in that the receptacle ( 3 ) is made of thin strip material into which a groove is pressed. 3. A method for producing an optical fiber connection according to one of claims 1 or 2, characterized in that the optical fiber ends ( 1 ) are inserted in such a groove so that a two-line guidance is ensured. 4. A method for producing an optical waveguide connection according to one of the preceding claims, characterized in that an immersion medium is introduced into the groove with the optical waveguide ends ( 1 ) before the pressure part ( 4 ) is fastened. 5. A method for producing an optical waveguide connection according to one of the preceding claims, characterized in that an outer angle part ( 5 ) around the receptacle ( 3 ) is attached.