An optic fiber adaptor includes two flexible engaging members and two positioning walls cooperating with one another to define an insertion slot. Each engaging member has a first inclined surface and a second inclined surface disposed behind the first inclined surface. A distance between the first inclined surfaces of the engaging members decreases rearwardly so as to facilitate pushing of a casing body of a ferrule assembly into the insertion slot. A distance between the second inclined surfaces of the engaging members decreases forwardly so as to facilitate pulling of the casing body out of the insertion slot. An optic fiber connecting device having the optic fiber adaptor is also disclosed.

An optic fiber connector assembly, including at least one adapter and at least one connector, is provided. The adapter is correspondingly connected to the connector. The adapter includes a first housing, at least one sleeve disposed in the first housing, at least one bridging portion extending out of a side of the first housing, and at least one locking arm extending from the side and located next to the bridging portion. The sleeve extends from an inside of the first housing to the corresponding bridging portion. The connector includes a second housing, a ferrule disposed in the second housing in a penetrating manner, and a spring abutted between the second housing and the ferrule. The second housing is sleeved onto the bridging portion, the ferrule is inserted into the sleeve, and the locking arm is buckled onto the second housing.

Optical connectors that substantially preserve alignment and are easy to manufacture. The alignment system using the optical connectors disclosed herein include a first housing, a second housing and an alignment component, the said alignment component configured to provide optical alignment between the optical components.

A fiber optic and electrical connection system includes a fiber optic cable, a ruggedized fiber optic connector, a ruggedized fiber optic adapter, and a fiber optic enclosure. The cable includes one or more electrically conducting strength members. The connector, the adapter, and the enclosure each have one or more electrical conductors. The cable is terminated by the connector with the conductors of the connector in electrical communication with the strength members. The conductors of the connector electrically contact the conductors of the adapter when the connector and the adapter are mechanically connected. And, the conductors of the adapter electrically contact the conductors of the enclosure when the adapter is mounted on the enclosure.

The present invention provides a receptacle structure for an optical connector comprising a receptacle body, and a first housing. The receptacle body has a first end and a second end for providing optical connector inserted thereto, respectively. Two sides of the first end respectively have first flexible plate having first attaching structure. The first housing, folded by a single piece material, is a closed structure having a first through hole wherein two walls of the first housing have first coupling structure for coupling to the attaching structure when the first end of the receptacle body is inserted into the first through hole whereby the first housing is completely assembled with the receptacle body. In addition, an optical communication device having the receptacle structure is also provided in which the optical connector can be inserted into the receptacle structure for optical communication.

An optical fiber adapter (10) comprises: a housing (1), a front portion of the housing (1) is provided with at least two accommodating cavities (19) which penetrate in a front-rear direction, are arranged sided by side, and are closed circumferentially, and a rear portion of the housing (1) is provided with a mounting base (14); at least two optical fiber plugs (2) provided on the mounting base (14), each optical fiber plug (2) comprises a positioning member (21), a ferrule (22) fixed to the positioning member (21) and extending forwardly, an optical fiber (23) exposed to a front end of the ferrule (22), a sleeve (24) fitted on an outer periphery of the ferrule (22) and a positioning cylinder (25) further sheathed on an outer periphery of the sleeve (24), a front end of the positioning cylinder (25) extends forwardly into the accommodating cavity (19), a rear end of the positioning cylinder (25) is fixed to the positioning member (21), an outer periphery of the positioning member (21) is provided with a first flange (211); and at least a fixing cover (3) locked on the mounting base (14) of the housing (1), the fixing cover (3) and the mounting base (14) are assembled to form a first latching groove (4), the first latching groove (4) correspondingly accommodates the first flange (211) of the optical fiber plug (2) and positions the first flange (211) of the optical fiber plug (2). The optical fiber adapter (10) can shorten the size of the rear portion and save the occupied space inside the cabinet.

A ferrule-based fiber optic connectors having a connector assembly with a ferrule insertion stop for limiting the insertion of a ferrule into a ferrule sleeve are disclosed. In one embodiment, the fiber optic connector comprising a connector assembly, ferrule insertion stop, a connector sleeve assembly and a female coupling housing. The connector assembly comprises a ferrule and a resilient member for biasing the ferrule forward and the connector sleeve assembly comprises a housing and a ferrule sleeve, where the ferrule of the connector assembly is at least partially disposed in the ferrule sleeve when assembled. The ferrule insertion stop limits the depth that the ferrule may be inserted into the ferrule sleeve.

Provided is a connector that includes an optical component and a movable member. The optical component emits light. Light from the optical component is incident upon the movable member and the movable member is movable between a first state taken during non-fitting to a counterpart connector and a second state taken during fitting to the counterpart connector. Incident light incident upon the movable member from the optical component is, in the first state, attenuated and emitted to an outside such that power of the light is lower than power of the light when the movable member is held in the second state.

Optical fiber stub having a first end and a second end, and a base on an outer surface of the stub body. A receptacle cap having a tubular body with a locking end and a receiving end, wherein an inner surface of the locking end includes an inner rim for receiving and securing a clip therein. A polymer insulating insert having a first plurality of clips on a first side and a second plurality of clips on the second side, wherein the first plurality of clips are configured to clip onto and secure the polymer insulating insert to the base of the stub body, and the second plurality of clips are configured to clip onto and secure the polymer insulating insert to the inner rim within the locking end of the receptacle cap.

A fiber optic adapter block is disclosed. The fiber optic adapter block includes at least three fiber optic adapters provided in a stacked arrangement extending widthwise in a longitudinal direction, wherein every other adapter of the at least three fiber optic adapters is staggered in a front to back direction with respect to an adjacent adapter such that front ends of the every other adapter of the at least three fiber optic adapters are aligned at a first depth and a front end of the adjacent adapter is at a second depth that is different than the first depth.