SU1654762A1 - Light guide disengagheable connector - Google Patents

Description

one

(21) 4690605/10 (22) 05/15/89 (46) 07.06.91. Bul №21 (72) V.M. Dunaev

(53) 535.89 (088.8)

(56) USSR author's certificate

No. 1283687, cl. G 02 B 6/24, published. 1985.

USSR Author's Certificate No. 1277043, cl. G 02 B 6/38. Rep. 1985.

(54) LIGHTING CONNECTOR CONNECTOR

(57) The invention relates to the field of optical fibers, in particular to detachable connectors of optical cables for transmitting information, and allows to increase the accuracy of connection and to reduce the size. The connector is inserted with a centering sleeve 13, made with a compensating groove and provided with a sheath 16 of elastic rings, and an elastic insert 21, which performs the function of a flexible hinge. The light-guiding tip 4 is made with a shoulder 23 for engaging with an insert 21, a conical socket in the housing and an end face of the sleeve 13. 1 Cp. Of the file, 5 ill.

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The invention relates to the field of optical fibers, in particular, to detachable connectors of optical cables for transmitting information.

The aim of the invention is to improve the accuracy of the connection and reduce the size.

FIG. 1 shows the connector in the docked state; in fig. 2 - the same, in the undocked state; in fig. 3 shows the node I in FIG. one; in fig. 4 is a section A-A in FIG. 3; in fig. 5 - section B B in FIG. 2

The connector includes a semi-connector 1, a guide bushing 2, a housing 3 of the semi-connector, a light-guiding tip 4 with a precision base surface 5, a fixing section 6 for the cable sheath, a collet bushing 7, a clamping nut 8, petals 9 of the sleeve 7, a sealing gasket 10. light guide 11, nuts 12, a split centering sleeve 13 with a longitudinal groove 14 and a compensating groove 15, an elastic non-metallic sheath 16 in the form of a set of rings 17, two half 18 and 19 sleeves 2, connected by rolling the bracket 20, an elastic non-metallic insert 21, made in the form of a three-g for a prism, for the edges of which in the case 3 are grooves 22, a shoulder 23 with a conical surface 24, for which in case 3 there is a slot 25.

The connector works as follows.

Before joining, the guide bush 2 with the split sleeve 13 installed in it is connected with a nut nut 12 to one of the half connectors 1, while the sleeve 13 is mounted on the base surface 5 of the tip 4 of this half connector 1. In the disconnected condition of the elastic insert 21 presses the tip 4 to the interaction of the conical surface 24 of the flange 23 with the conical socket 25 of the housing 3. Preloading the insert 21 is determined by the force that must occur at the ends of the tips 4 when they are joined, and is provided Installation collet sleeve 7 in the housing 3. The interaction of the conical surface 24 with a conical seat 25 ensures the centering of the tip 4 with respect to the longitudinal axis of the housing 3 that provides accurate hit the base surface 5 into a split sleeve 13 and a smooth docking with the least effort.

When the semi-plugs 1 come together, the base surface 5 of the tip 4 enters the guide sleeve 2, enters the flared part of the split sleeve 13, enters it and comes into contact with the end surface of the tip 4 of the return semi-connector 1. Further convergence of the semi-plugs 1 leads to deformation of the inserts 21 by the value L (FIG. 3), with the conic surface 24 coming out of the joint with

the conical socket 25 and the tip 4 acquires the possibility of being oriented along a huge angular and two translational degrees of freedom perpendicular to the longitudinal axis of the housing 3.

Box 21 provides the power of its

elastic properties and configuration orientation of tips in the set limits. The cylindrical area in which the tip 4 is installed, and located behind

In this case, the section of the insert 21 in the form of a truncated cone makes it possible to orient the tip 4 along the angle, and the cylindrical section acts as a flexible hinge. Forward movement

tip 4 is provided by the elastic deformation of the insert 21 In addition, the insert 21 with its deformation along the longitudinal axis creates the necessary and sufficient forces for joining the tips 4 and the force at the ends of the optical fibers 11, ensuring reliable operation of the material of the optical fiber 11.

The base surfaces 5 of the tips 4 under the action of the split sleeve 13 are oriented along the longitudinal axis of the connector and finally join when the body 3 joins to the guide sleeve 2 using a cap nut 12. The accuracy of the connection ensures that the sleeve 13

with the sheath 16. since it simultaneously compresses the base surfaces 5 of the joined tips 4 without a gap and thereby joins the cores of the optical fibers 11. The accuracy of the docking is determined by the accuracy

treating the base surface 5 with respect to the core of the fiber 11, which is ± 2 µm. The connector undocking occurs in reverse order.

You can use this option.

multicore optical connectors each channel of which is executed according to the specified construction.

Claims (2)

1. A fiber optic detachable connector containing a guide bushing and two half connectors, each of which contains a housing with a precision mounted in it In this case, the horn of each semi-connector and the guide bush are made with the possibility of rigid fixation and contacting of the end surfaces of the light-guiding tips, in order to improve the accuracy of connection and reduce the dimensions of the connector, a guide bushing is inserted into the centering bushing, installed without a gap on the base surfaces of the tips and made with a compensating groove, symmetrical to its cut, and provided with an elastic nonmetallic shell in the form of a set of rings, an elastic nonmetallic insert with an inner surface in the form of a truncated cone that passes over a smaller diameter is inserted into the body of each semi-connector; um / 12 14 2 16 12 0 five lindr and with an outer surface in the form of a triangular prism, for the edges of which in the housing the corresponding grooves are made, while the light-guiding tip is made with a shoulder with the possibility of pressing it from the back side with the end of an elastic non-metallic insert and with the possibility of its front side interacting with the half-connector body 2. Connector pop.1, characterized in that the collar of the light-emitting tip is made with a conical outer part on the front side, and the corresponding conical socket is made in the case of the semi-connector. 23 4 21 3 789 9 h w.h. y figure 1 25 (//////////// 7 7: ь f (lg.5