RU2488857C1 - Hermetically sealed fibre-optic connector - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: connector has a cylindrical housing with a sealing flange, on both ends of which there is a thread and a groove for fixing the angular position of mated FC-type connectors. A sealing assembly in form of a ferrule unit is placed coaxially inside the housing. Seal rings are placed between the housing of the ferrule unit and the housing of the hermetically sealed fibre-optic connector. Centring gripping elements are made in form of floating coupling sleeves, having an annular groove on the centre part of the outer cylindrical surface. Opposite ends of the coupling sleeves have conical outer surfaces. The housing further accommodates cylinder bushings with a conical inner surface. The housing has inner annular grooves in which fixing elements are inserted, said elements lying in annular grooves of the floating coupling sleeves.

EFFECT: high impact and vibrational resistance and degree of sealing of the fibre-optic connector while maintaining universality of mating with FC-type connectors.

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Description

The invention relates to devices for fiber optic information transmission lines and can be used as a sealed fiber optic connector.

Known sealed fiber optic connector designed for sealed detachable connection of fiber optic cords containing a cylindrical body with a sealing flange on its outer surface. At both ends, a thread and a groove are made on the outer cylindrical surface of the housing for fixing the angular position of the optical connector, while the connector includes a housing with a union nut and a collimating microlens, in the focus of which the end of the optical fiber is rigidly fixed — a pigtail. A sealing assembly comprising a plane-parallel transparent plate is coaxially mounted inside the housing. The disadvantages of this fiber-optic connector are insufficient shock and vibration stability due to the design features of the connector, the large introduced signal loss due to the use of optical components (micro lenses, glass) in the connector design, as well as the inability to connect the connector to the connector directly without using a pigtail. [one]

Known sealed fiber optic connector designed for sealed detachable connection of fiber optic cords containing a composite cylindrical body with a sealing flange. A thread is made at both ends on the outer cylindrical surface of the housing for attaching a union nut of the connector. Inside the housing, a gradient fiber is hermetically installed, made in the form of a rod, at the ends of which centering split sleeves are installed. The disadvantages of this fiber optic connector are insufficient shock and vibration stability, due to the design features of the split sleeves, and large introduced signal loss caused by the use of a gradient fiber. [2]

The closest in technical essence to the present invention is, we have taken as a prototype, a sealed fiber optic connector designed for sealed detachable connection of fiber optic cords containing a cylindrical body with a sealing flange on its outer surface. A thread and a groove are made at both ends on the outer cylindrical surface of the housing for fixing the angular position of the FC-type docking connectors (Fiber Connector), and inside the housing there is a coaxially mounted sealing assembly in the form of a ferrule block, the ferrules of which are included in the centering split bushings installed in their holding bushings mounted in the housing of the sealed fiber optic connector, and between the housing of the ferrule block and the housing of the sealed fiber optic connector, sealing rings are installed but. [3]

This sealed fiber-optic connector has a high accuracy of joint ferrules of connectors in it, however, it does not provide shock and vibration stability when docking single-mode optical fibers, due to the design features of its floating split ceramic sleeve.

Therefore, the use of this sealed fiber-optic connector on moving objects, for example, in fiber-optic transmission lines installed on rocket and space technology products, leads to disruption of the onboard fiber-optic lines due to the mutual resonant vibrations of the tips (ferrules) due to the presence of the gap between the connector housing and the centralizer installed in it, which limits the scope of this sealed fiber optic connector I am.

The aim of the invention is to increase the shock and vibration resistance and the degree of sealing of the fiber optic connector while maintaining the versatility of docking with FC-type connectors.

This goal is achieved by the fact that in a sealed fiber-optic connector containing a housing with a sealing flange, on the outer cylindrical surface of which there are threads and a groove on both ends to fix the angular position of the FC-type docking connectors (Fiber Connector), the sealant is coaxially installed inside the housing a node in the form of a ferrule block, the ferrules of which are included in the centering split sleeves installed in the sleeves holding them, fixed in the case of a sealed fiber-optic For this, sealing rings are installed between the housing of the ferrule block and the housing of the sealed fiber optic connector, the centralizers are made in the form of elastic collet elements made in the form of floating couplings having an annular groove in the central part of the outer cylindrical surface, the opposite ends of the floating coupling are made with external conical surfaces, cylindrical bushings with an internal conical surface are additionally installed in the housing; INH internal annular groove in which are inserted the locking elements arranged in annular grooves floating couplings.

At the same time, sealing rings sandwiched between the ferrules and the casing can be additionally introduced into the fiber-optic connector, and the elastic collet element can be made in the form of a coupling, one end of which is made with an external conical surface, and the second is rigidly fixed in the casing, and the casing May contain cylindrical knurling.

Improving the shock and vibration resistance of the proposed sealed fiber-optic connector is provided by replacing the centralizers made in the form of split sleeves of the sealed fiber-optic connector-prototype with centralizers in the form of elastic collet elements whose ends are made with external conical surfaces that allow you to center the ferrules of the ferrule and ferrule block connectors due to radial compressive force.

An increase in the degree of sealing of the fiber-optic connector is provided by the introduction of additional sealing rings sandwiched between the ferrules of the ferrule block and the housing of the sealed fiber-optic connector.

Figure 1 shows a longitudinal section of a sealed fiber optic connector taken as a prototype. It consists of a housing 1, a ferrule block 2 with sealing rings 3 and 4, split ceramic bushings 5 and 6, loosely mounted in the bushings 7 and 8 and worn on the ferrules 9 and 10. The housing contains a sealing flange 11 with sealing rings 12 and 13, at both ends, threads 14 and 15 are made for tightening the cap nuts of the docking connectors, as well as slots 16, 17, 18 and 19 for fixing the angular position of the connectors. The housing in the central part contains a thread 20 for tightening the nut, with which the connector is installed.

Figure 2 shows a longitudinal section of the proposed sealed fiber optic connector with a coupling rigidly fixed from one end, and the elements of the connector docked to it. The sealed fiber-optic connector consists of a housing 21, a ferrule block 22, elastic collet elements 23 and 24, sealing rings 25 and 26. The housing has a sealing flange 27, in which a groove 28 is made, into which a sealing ring 29 is inserted. In the central part of the housing 21, a thread 30 is made, on which the nut 31 is screwed. The housing 21 has threads 32 and 33, on which the union nut 34 of the standard FC-type 35 connector is screwed. Knurls 36 and 37 for dressing are also made on the cylindrical surfaces of the housing I use heat shrink tubes and fix the position of the union nut 34 of the connector 35. The ferrule block consists of two ferrules 38 and 39, the sleeve 40 and the sealing rings 41 and 42. Sealing is provided by the rings 25, 26, 41 and 42. When connecting the connector 35 to the tight the fiber-optic connector ferrule 43 enters the collet element 23 until it contacts the ferrule 38, providing optical contact to the ends of the fibers glued to the ferrules 38 and 43, and due to the twisting of the union nut 34 of the connector 35, the collet element 23 is compressed and jammed lok 54, due to which the alignment of the ferrules 38 and 43 is ensured. To prevent rotation of the sleeve 44, the connector housing contains turnkey grooves 45 and 46.

Figure 3 shows a longitudinal section of the proposed sealed fiber optic connector with a floating coupling. The connector is characterized in that instead of the elastic collet elements 23 and 24, floating couplings 47 and 48, cylindrical bushings 49 and 50 with an internal conical surface, and locking elements 51 and 52 preventing the couplings 47 and 48 from falling out of the housing 21 are introduced.

Figure 4 shows the appearance of the collet element in the form of a coupling, one end of which is made with an external conical surface. The collet element comprises a through hole 53 in the central part, in which the ferrules of the connector and connector are centered. The collet element comprises an outer conical surface 54, a cylindrical surface 55, and a groove 56 necessary to increase the flexibility of the petals 57, 58, 59, 60 of the collet element. The petals are formed by cutting the collet element from the side of the conical surface into several parts, and the cuts are made to the rigid part 61 of the collet element. The end face 62 from the side of the conical surface 54 has a chamfer 63 for the end of the ferrule of the connector to enter the collet element.

Figure 5 shows the appearance of the collet element in the form of a floating coupling, both ends of which are made with external conical surfaces. The collet element is made of a cylindrical sleeve, and the opposite ends 64 and 65 of the cylindrical sleeve are made in the form of external conical surfaces 66 and 67. A through hole 68 is made along the axis coaxially with the conical surfaces 66 and 67 of the collet, having a chamfer 69 necessary for the end of the connector ferrule to enter in the collet element, and from each end of the cylindrical sleeve made cuts 70, 71 72, 73, overlapping each other in the Central part 74 of the cylindrical sleeve, but not reaching the opposite end and offset suspended relative to each other at a certain angle. A groove 76 is made on the outer cylindrical surface 75, into which the fixing element 77 is inserted in the form of a cut elastic ring, which is necessary for fixing the collet element in the housing 21 of the sealed fiber-optic connector.

Bibliography

1. S.P. Orobinsky, A.P. Malakhov, A.M. Kuzmichev. Sealed fiber optic connector for space systems. // "Earth observation, monitoring and remote sensing systems." Materials of the V scientific and technical conference. - Moscow 2008, p.133-135.

2. US patent No. 4859021 from 08/22/1989.

3. Hermetic fiber-optic feedthru. SOURIAU Connection Technology. http://www.souriau.com/.

Claims (4)

1. A sealed fiber-optic connector containing a cylindrical body with a sealing flange, on the outer cylindrical surface of which there is a thread and a groove at both ends for fixing the angular position of FC-type docking connectors (Fiber Connector), a sealing unit in the form of a block is coaxially mounted inside the case ferrule, ferrules of which are included in the centering split sleeves installed in the sleeves holding them, fixed in the housing of the sealed fiber-optic connector, and between the housing m ferrule block and a sealed fiber-optic connector housing, sealing rings are installed, characterized in that the centralizers are made in the form of elastic collet elements made in the form of floating couplings having an annular groove in the central part of the outer cylindrical surface, the opposite ends of the floating couplings are made with external conical surfaces, cylindrical bushings with an internal conical surface are additionally installed in the housing, the housing contains inner annular grooves into which locking elements are inserted located in the annular grooves of the floating couplings. 2. The hermetic fiber optic connector according to claim 1, characterized in that the sealing rings are additionally inserted, sandwiched between the ferrules and the housing. 3. The sealed fiber optic connector according to claim 1, characterized in that the elastic collet element is made in the form of a coupler, one end of which is made with an external conical surface, and the second is rigidly fixed in the housing. 4. The sealed fiber optic connector according to claim 1, characterized in that the housing contains cylindrical knurling.

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