RU202491U1 - FIBER OPTICAL CONNECTOR - Google Patents

Abstract

The utility model relates to a fiber-optic method of data transmission, in particular to connectors designed for quick mechanical connection and disconnection of optical fibers. A fiber-optic connector is proposed, which consists of a housing with a sleeve and a receiving part, a cap, a bracket, a movable nozzle and a protective ferrule cap. In this case, the receiving part contains a tapered hole, a bar, a shank in the form of a clamp with teeth. The teeth have cylindrical cutouts. The technical result to be achieved by the proposed utility model is to ensure reliable fixation of the fiber-optic cable of circular cross-section in the connector due to the design of the receiving part of the connector body. An additional technical result is an increase in the range of cable standard sizes that can be used with the proposed connector.

Description

The invention relates to a fiber-optic data transmission method, in particular to connectors designed for fast mechanical connection and disconnection of optical fibers.

Known optical fiber connector, in which the optical fiber of the tip, placed in the tip, resiliently held by an elastic element, and the main optical fiber are fused using an apparatus for fusion of optical fibers, and the fused section is reinforced with a reinforcing sleeve to form a connection of the main optical fiber and the optical fiber of the tip. The connector includes a tip guide bush installed between the tip and an elastic element, while the tip guide bushing, optical fiber and fused section are connected in one piece using a reinforcing sleeve (according to patent RU2598774, class G02B 06/38, publ. 27.09.16).

The disadvantage of this solution is the complexity of assembling the connector with the main fiber, associated with their fusion together.

Known fiber optic connector, consisting of a tail sleeve, an optical fiber splice unit having a rear part connected to the front part of the tail sleeve, a fixing element having one end inserted into the rear part of the tail sleeve, and the other end attached to the end portion of the fiber -optical cable, and an insulating cap mounted on the tail sleeve. The fixing element includes a pair of separate and opposite elastic side tabs having a pair of clamping surfaces facing each other, each of them is made with a projection in the form of a tooth on it, in which the end section of the fiber optic cable is located between a pair of elastic side tabs ... In this case, the inner surface of the insulating cap is made to compress a pair of elastic side tabs, where the insulating cap is installed on the tail sleeve so as to help fix the end section of the fiber-optic cable between a pair of elastic side tabs (according to patent RU143329, class G02B 06/38, publ. . 20.07.14).

In the proposed technical solution, the fixing element is made flat in order to provide the possibility of using the connector for cables of different shapes in cross-section. However, this does not make it possible to ensure reliable fixation of the cable by the fixing element. There are also restrictions on cable sizes.

The closest technical solution adopted for the prototype is a fiber-optic connector, which consists of a housing with a clip, a protective ferrule cap, an optical fiber attachment with a V-shaped clip, a bracket, an outer sheath, a shank (according to patent CN205562886, class G02B6 / 38, publ. 09/07/16).

The disadvantage of this design is the flat shape of the clamp for the outer sheath of the cable, which prevents the round cable from being inserted and securely fixed into the connector.

The technical result to be achieved by the proposed utility model is to ensure reliable fixation of the fiber-optic cable of circular cross-section in the connector due to the structural design of the receiving part of the connector body. An additional technical result is an increase in the range of cable standard sizes that can be used with the proposed connector.

The specified technical result is achieved in that the fiber-optic connector consists of a body with a sleeve and a receiving part, a cap, an elastic bracket, a movable nozzle and a protective cap of the ferrule, while the receiving part contains a tapered hole, a bar and a shank in the form of a clamp with teeth, and differs in that the teeth have cylindrical cutouts.

In addition, the inner surface of the strip can have cylindrical cutouts.

The proposed utility model is illustrated by the following drawings, which show:

FIG. 1 - fiber optic connector;

FIG. 2 - receiving part of the fiber optic connector;

FIG. 3 - fiber optic connector shank.

The fiber-optic connector (Fig. 1) consists of a body 1, a cap 2, an elastic bracket 3, a movable nozzle 4 and a protective cap of a ferrule 5. The body 1 has a sleeve 6 with a V-shaped cut and a receiving part 7 (Fig. 2), containing a conical hole 8 for inserting optical fiber into the coupling 6, a bar 9 that prevents the passage of the outer sheath of the fiber-optic cable (not shown in the figure), a shank 10 in the form of a clamp 11 with teeth 12, the inner surface of which has a cylindrical shape. To dilute the V-shaped cutout of the coupling 6, a spreading bracket 13 is used. The teeth 12 (Fig. 3) have cylindrical cutouts 14, and the strip 9 has cylindrical cutouts 15.

Application.

The described connector is used to terminate circular fiber optic cables. Before installing the connector, it is necessary to remove the outer sheath at the end of the cable (chipping). Then the cable is threaded through the cap 2 and inserted into the shank 11. The optical fiber is inserted into the tapered hole 8 until the outer sheath of the cable stops against the bar 9. The optical fiber is fixed in the V-shaped cut of the coupling 6 with the help of the clip 3. The cap 2 is screwed onto the thread on housing 1, squeezing clamp 11, which, thanks to teeth 12, fixes the outer sheath of the cable.

Due to the fact that the teeth have cylindrical cutouts, the contact surface of the tooth with the outer sheath of the cable increases. This ensures that the cable is securely held in the connector clip. Also, it should be noted that the cylindrical notches of the teeth ensure cable alignment and minimize fiber displacement.

The strip with cylindrical cutouts allows to increase the area of its contact with the end surface of the outer sheath of the cable. This further improves the reliability of the connection.

In addition, due to the fact that the teeth have cylindrical cutouts, it was possible to increase the permissible maximum diameter of the fiber-optic cable for which the proposed connector can be used. For example, a flat-toothed connector can be used for a cable with a maximum diameter of 2.5 mm, and the exact same connector, but with teeth with cylindrical notches, for a cable with a maximum diameter of 3 mm.

Thus, the solutions used in the utility model contribute to the achievement of the technical result.

Claims (2)

1. Fiber optic connector, consisting of a body with a sleeve and a receiving part, a cap, a bracket, a movable nozzle and a protective cap of a ferrule, while the receiving part contains a tapered hole, a bar and a shank in the form of a clamp with teeth, characterized in that the teeth have cylindrical cutouts. 2. The connector of claim. 1, characterized in that the inner surface of the strip has cylindrical cutouts.

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