RU86020U1 - CONNECTOR FOR OPTICAL CABLES - Google Patents

Abstract

1. The connector for optical cables contains a housing in which two nodes are mounted opposite each with the end of the optical cable fixed in it, one of the nodes is rotatable, and the other node is fixed, the ferrule is installed inside the housing, characterized in that the housing is made in the form bushings, a rotary assembly is installed at one end of the housing and consists of a shaft with a stepped hole along the axis in which the optical cable is installed, bearings and an expansion sleeve, the fixed assembly is installed It is connected at the other end of the case and consists of a sleeve with a cable fixed in it, combined with a ferrule, made with a side cutout, in which the stripped ends of the cables are placed and which is filled with an optical gel. ! 2. The connector for optical cables according to claim 1, characterized in that the side cutout of the ferrule is closed by a cover. ! 3. The connector for optical cables according to any one of claims 1, 2, characterized in that the connector housing is made of Invar.

Description

The connector for optical cables is intended for use in the field of communication for transmitting information from rotating objects or to rotating objects via fiber optic cables.

A well-known connector for optical cables, comprising a housing made of two interconnected parts, one of which is mounted for rotation, in which are installed, springs, spring-loaded ferrules, in each of which optical fibers of cables passing inside the bushings installed from two sides of the body (see US patent No. 5633963, 05/27/1997).

The disadvantages of this connector is the complexity of manufacturing, because greater precision is required in the manufacture of the connector parts in order to maintain the alignment of the fibers, which eliminates optical loss during rotation, which requires the implementation of high-precision rotation elements, which complicates the design of the connector and makes its manufacture more expensive. In addition, the known connector has increased dimensions, especially of the rotating element, as a result of which the linear speed of the rotating parts is large, which limits the rotation speed of the connector, which leads to a decrease in the reliability of signal transmission from one cable to another and the wear of the connector parts increases.

The technical result of the utility model is to increase reliability, reduce the size and reduce the cost of the connector for optical cables.

Figure 1-4 shows an optical connector.

The optical connector (Fig. 1) consists of a housing 1, in which two nodes 2 and 3 are placed opposite, each with the end of the optical cable 4 and 5 fixed in it. In the housing 1, made in the form of a sleeve, there is an adjustment window 6, which assembled closed casing 7 with fasteners of the connector 8.

One of the nodes 2, is shown in detail in figure 2. It consists of a shaft 9 with a stepped hole along the axis, an optical cable 4 having a capillary 10, bearings 11 and 12, and a spacer sleeve 13.

The outer sheath of the end of the optical cable 4 is glued into the hole of the shaft 9, and the stripped end 14 of the capillary 10 is inserted into the ferrule.

Another node 3 is shown in figure 3 and consists of a sleeve 15, which is combined with ferulla 16. Ferulla 16 is made with a cutout 17.

The outer sheath of the end of the optical cable 5 is glued to the sleeve 15, and its cleaned end 18 to the ferrule 16. The cutout 17 in the ferrule 16 is filled with optical gel and closed by a cover 19.

The operating state of the connector assumes the exact relative position of the nodes 2 and 3. When assembling in the cutout 17 of the ferrule 16 (Fig. 4), the distance between the ends of the optical fibers is 0.03-0.05 mm. and kept within these limits regardless of temperature, since the connector is made of INVAR alloy having a low coefficient of thermal expansion (Figure 4).

Information is transmitted when the node 2 is rotated with an optical cable fixed in it, its end 14 cleared of shells rotates in the ferrule hole, transmitting information to the cleaned end 18 of the optical cable 5. Moreover, the eccentricity during rotation of the fiber end in the ferrule is not associated with radial runout shaft 9 and is determined by the tolerances on the diameters of the fibers and the holes of the ferrule, which does not exceed 0.001-0.002 mm., which ensures the coaxiality of the optical fibers of the cables and more accurate transmission of information than that of the closest analogue, and information transfer at high rotation speeds.

The axial play of the rotating cable, depending on the fixing of the shaft 9 (figure 2) in the bearings 11 and 12, is minimized by the spacer sleeve 13. All this ensures stability and reliability of the connector.

As a result of the connector being made in the form of a single housing, elimination of intermediate movable elements fixing optical cables and cleaned optical fibers, the dimensions of the connector and the cost of its manufacture are reduced. The absence of these intermediate elements eliminates their mutual displacement during rotation and temperature differences, which increases the reliability of the connector.

Claims (3)

1. The connector for optical cables contains a housing in which two nodes are mounted opposite each with the end of the optical cable fixed in it, one of the nodes is rotatable, and the other node is fixed, the ferrule is installed inside the housing, characterized in that the housing is made in the form bushings, a rotary assembly is installed at one end of the housing and consists of a shaft with a stepped hole along the axis in which the optical cable is installed, bearings and an expansion sleeve, the fixed assembly is installed It is connected at the other end of the case and consists of a sleeve with a cable fixed in it, combined with a ferrule, made with a side cutout, in which the stripped ends of the cables are placed and which is filled with an optical gel. 2. The connector for optical cables according to claim 1, characterized in that the side cutout of the ferrule is closed by a cover. 3. The connector for optical cables according to any one of claims 1, 2, characterized in that the connector housing is made of Invar.