RU2064687C1 - Optical connector - Google Patents

Abstract

FIELD: computer technology; fiber- optic systems. SUBSTANCE: optical joint has plug and socket. Each unit has case inside which "k" multichannel interresponse self-connectors are mounted, as well as base, and the first elastic washer. Washer is mounted between corresponding case and base. Each multichannel self-connector has case of connector, stack of plates for carrying optical fibers, the third elastic washer. The latter is mounted between case of connector and stack of plates. Each connector's case is spring-loaded by spring-loading member. The second elastic washer is mounted between case of the connector and base of plug or socket. Each connector's case and stack of plates for carrying optical fibers of plug or socket are made with interresponse guiding members and entrance holes. Guiding members of the case and response entrance holes of case of the socket are made to have catch member. EFFECT: improved reliability of operation. 1 dwg

Description

 The present invention relates to computer technology and can be used, for example, in optoelectronic devices for installing functional boards for various purposes in the housing of the device.

 Known fiber optic lattice connectors (1), made in the form of a set of individual single-fiber plugs with spring-loaded. The main disadvantage of this device is the relatively small number of connected fibers, the optical contact of which can be made without additional manipulations on the alignment and fastening of each connector separately.

 The closest to the proposed device in technical essence is a multi-channel detachable light guide connector, consisting of a plug and a socket, each of which contains a housing in which K multi-channel interconnected half-connectors are installed, while the plug housing is made with guide elements, and the socket housing is made with corresponding input holes (2). The main disadvantage of this device is the inability to provide reliable optical contact at the same time a large number of optical connectors without additional manipulations to align and secure each connector separately.

 The aim of the invention is to provide reliable optical contact at the same time a large number of multi-contact optical connectors due to their self-alignment.

 The goal is achieved by the fact that in the optical connector, consisting of plugs and sockets, each of which contains a housing in which K multi-channel interconnected half sockets are installed, while the plug housing is made with guide elements, and the socket housing is made with corresponding reciprocal inlets, bases are introduced plugs and sockets, two first, 2K (K≥1) second and 2K third elastic gaskets, 2K spring elements, 2K connector housings and 2K stops carrying optical fibers of multi-channel half-connectors plates, and m The first elastic gaskets are located between the corresponding body and the base of the plug and socket, the body of each Kth multi-channel half-connector is spring-loaded by the Kth spring element and separated from the body of the plug and socket by the corresponding Kth second elastic gasket, and from the corresponding Kth foot bearing optical fibers of the plates with the corresponding Kth third elastic gasket, the body of each connector and each foot of the optical fibers of the plug and socket, which are made of fiber, are interconnected In particular, with guiding elements and inlet openings, guiding elements of the plug body and mating inlet openings of the socket housing are made with corresponding latch elements.

 There are no technical solutions with a set of features similar to the set of distinctive features of an object of the invention.

 This set of essential features and the relationships between them allows you to get a device with 2-100 times more at the same time mating connectors, which with more mating fibers provides greater reliability and accuracy of joining in comparison with the known devices and prototype.

 Thus, the proposed device has properties that are not inherent in known devices. This is due to a new set of essential features and new relationships.

 Due to the fact that the proposed technical solution is used in comparison with the known ones for communication and switching, for example, electronic and other types of devices using fiber-optic methods, the speed, reliability and compactness of communication and switching devices are significantly increased.

 The invention is illustrated by the drawing, which shows the optical connector in the undocked state, section.

 The optical connector consists of a socket (left) and a plug (right), which contain the housing 1 with reciprocal guide elements 2, input parts 3 and latch elements 4, elastic gaskets 5, the housing of the connector 6 multi-channel half-connector with the corresponding response guide elements 7 and input parts 8, spring elements 9, elastic gaskets 10, a stack of optical fiber-bearing plates 11 with corresponding mating guide elements 12 and lead-in parts 13, elastic gaskets 14.15 and bases 16.

 The housing 1 with reciprocal guide elements 2, entry parts 3 and elements of the latch 4 is intended for fastening, protection and preliminary orientation of the position of the connectors, as well as fixing the housing units. The housing may be made, for example, of metal or plastic.

 The elastic gaskets 5 are intended for self-adjustment of the position of the housings 6 of the connectors when they are docked. Gaskets 5 can be made, for example, of foam rubber or vulcanized soft rubber.

 The housing of the connector 6 with the corresponding mating guide elements 7 and the lead-in parts 8 is intended for fastening, protecting and pre-positioning the position of the feet 11 of the optical fiber-bearing plates. The connector housing may be, for example, made of metal or plastic.

 The spring elements 9 are designed to clamp the reciprocal housings 6 to each other and ensure their reliable connection. The elastic gaskets 10 are designed to self-adjust the position of the feet 11 of the optical fiber-bearing plates during the docking of the connectors, as well as to protect the feet from the effects of external influences on the connector housing. Gaskets 10 may be made, for example, of foam rubber or vulcanized soft rubber.

 The stack 11 of the plates carrying the optical fibers with the corresponding mating guide elements 12 and the lead-in portions 13 is intended for fastening the mating optical fibers and can be made, for example, in the form of a set of single-crystal silicon wafers with V-shaped grooves for the optical fibers and for the elements 12.

 The guiding elements 12 with the lead-in parts 13 serve for the final orientation and fixation of the feet 11 of the connector plates carrying optical fibers and can be made, for example, in the form of rods with chamfered ends, for example, of metal.

 The elastic gaskets 14 serve to seal the group of connectors and can be made, for example, of foam rubber or vulcanized soft rubber.

 Elastic gaskets 15 are intended for self-alignment of the housing 1 when they are docked. Gaskets 15 can be made, for example, of foam rubber or vulcanized soft rubber.

 The base 16 is intended for fastening the connectors, for example, to the device board and preliminary orientation of the housing 1. The base 16 can be made, for example, of metal or plastic.

 Suppose that the left base 16 is rigidly fixed, for example, on the body of the optoelectronic device, and the right base 16 on the circuit board of the device. When the board is installed in the device’s case, the guiding elements 2 of the cases 1 first engage with their lead-in parts 3. In this case, the cases 1 “float” in the elastic gaskets 15, which ensures their relative orientation for the smooth and smooth entry of the pins 2 into the corresponding grooves 2. As they advancements are engaged in engagement of the guide elements 7 with the help of the input parts 8. Moreover, due to the "swimming" of the connector bodies 6 in the elastic gaskets 5, their independent "self-alignment" and orientation relative to each other are carried out n, which provides the engagement pin 12 and the occurrence of vzaimootvetnye grooves 12 with lead-in portions 13.

 As they advance, the feet 11 of the optical fiber-bearing plates “float”, i.e. self-align in elastic pads 10, which provide not only an accurate and reliable connection of all feet 11, but also their protection from the influence of external influences on the connector body. The final position of the housings 1 is fixed by latches 4, while the springs 9 press the reciprocal parts of the connectors to each other and ensure their reliable contact.

 Using the proposed optical connector will allow 2-100 times to increase the number of simultaneously mating connectors, which with more mating fibers will provide greater reliability and accuracy of joining of such devices.

Claims (1)

 An optical connector, consisting of a plug and a socket, each of which contains a housing in which K (K≥1) multi-channel interconnected half-connectors are installed, wherein the plug housing is made with guide elements, and the socket housing is made with corresponding reciprocal inlets, characterized in that the bases of the plug and the socket, the first two, 2K second and 2K third elastic gaskets, 2K spring elements, 2K connector housings and 2K stop fiber-optic multi-channel half-connector wafers are inserted into the connector, between the corresponding case and the base of the plug and the socket, the first elastic gaskets are located, the body of each Kth multi-channel half-connector is spring-loaded by the Kth spring element and separated from the body of the plug and the socket by the corresponding Kth second elastic gasket, and from the corresponding Kth foot the optical fiber-bearing plates with the corresponding K-th third elastic gasket, the body of each connector and each foot of the optical fiber-bearing plug and socket plates are interconnected tween the guide elements and the inlet openings, the guide elements and the plug housing response inlets socket housing are formed with respective latch elements.