A crimping method includes covering an outer periphery of the back post is with reinforced fibers. The reinforced fibers are crimped to a front section of a back post. The reinforced fibers are twisted in a circumferential direction of the back post, such that the reinforced fibers extend on the outer periphery of the back post in a non-axial direction. The twisted reinforced fibers are crimped to a rear section of the back post. A crimping device includes a connector including a back post having at least one guiding rib with at least one notch. At least one crimp sleeve is used to crimp reinforced fibers of an optical fiber cable to the back post, and a portion of the reinforced fibers is gathered in the at least one notch.

Disclosed is a composite-type outdoor connector, which includes a dustproof sleeve and a connecting sleeve, the dustproof sleeve includes a dustproof head sleeve and a connecting nut, the dustproof head sleeve and the connecting nut are screwed and fixed, and the connecting sleeve includes a connecting head sleeve and a connecting tail sleeve, a connecting component is provided in the middle of the connecting sleeve, the connecting component includes a protective sleeve, a connector, a fixing member, a stop ring and a ferrule, the beneficial effects of the present disclosure are that the optical fiber connection is more stable, the structure is more stable, and the cable is not easy to rotate and deviate, and different types of connectors can be connected by replacing different connecting head sleeves, thereby having better compatibility.

Fiber optic connectors, cable assemblies and methods for making the same are disclosed. In one embodiment, the optical connector comprises a housing and a ferrule. The housing comprises a longitudinal passageway between a rear end and a front end, and, a part of the rear portion of the housing comprises a round cross-section and a part of the front portion of the housing comprises a non-round cross-section with a transition region disposed between the rear portion and the front portion.

A connectorized fiber optic cabling assembly includes a loose tube fiber optic cable and a connector assembly. The cable has a termination end and includes an optical fiber bundle including a plurality of optical fibers, at least one strength member, and a jacket surrounding the optical fiber bundle and the strength member. The connector assembly includes a rigid portion and defines a fiber passage. The connector assembly is mounted on the termination end of the cable such that the optical fiber bundle extends through at least a portion of the fiber passage. The plurality of optical fibers undergo a transition from a ribbonized configuration to a loose, non-ribbonized configuration in the rigid portion of the connector assembly.

A cable marking clip for securing to a connector of a cable such that axial movement of the cable marking clip relative to the connector is prevented includes an outer portion; and an inner portion attached to the outer portion at an end. The outer portion is configured to engage a connector having strain relief grooves and the inner portion is configured to be received radially between the connector and a cable so as to prevent axial movement of the cable marking clip relative to connectors with and without strain relief grooves.

An assembly assembled by a plurality of sections put together, wherein the section includes

an elongated structure having a left end and a right end,

an optical fiber having a left end and a right end and extending from its left end to its right end so that:

the left ends of the elongated structure and of the optical fiber are located on the same left side of the section, and

the right ends of the elongated structure and of the optical fiber are located on the same right side of the section,

each end of the optical fiber is enclosed in a junction box, the box of the right or left end of the optical fiber of the section being assembled with the junction box of the left end or right end of the optical fiber of another similar section to optically connect the optical fibers of two sections.

A fiber optic connector has a plug region at a first axial end and an anchor region at a second axial end. The anchor region includes first interlock members which protrude outwardly from a support portion. A crimp sleeve can be disposed over the anchor region of the plug connector so that a surrounding portion (e.g., a jacket and/or strength members) of the cable extends between the crimp sleeve and the first interlock members. When the plug connector is assembled, second interlock members can be formed in the crimp sleeve to extend radially into gaps between the first interlock members to enhance retention of the surrounding portion of the cable therebetween.

The present disclosure relates to a fiber optic assembly that includes a body and a lid coupled to the body where the body and the lid each define a respective fiber routing plane. The fiber optic assembly also includes a plurality of ports on the body and a plurality of ports on the lid such that when the lid and the body are in a closed configuration, the ports of the body and the ports of the lid define a singular connection plane.

The present invention discloses a fiber optic connector comprises: a ferrule assembly; a spring seat provided behind the ferrule assembly; and a spring provided between the ferrule assembly and the spring seat. The spring seat has a receiving chamber having an insertion port through which a portion of the ferrule assembly is inserted into the receiving chamber; wherein the ferrule assembly is pre-assembled into the receiving chamber of the spring seat in a way that the ferrule assembly is held to be movably engaged with the spring seat. The spring is fitted and compressed in the receiving chamber. As a result, the ferrule assembly, the spring seat and the spring are pre-assembled into an integral assembly before being inserting into a connector housing. All components of the connector except for the housing may be smoothly pulled through a small long pipe as a whole. After being pulled through the pipe, all components of the connector except for the housing may be easily and quickly inserted into the housing as a whole at one time.

An optical connector holding two or more LC-type optical ferrules is provided. The optical connector includes an outer body, an inner front body accommodating the two or more LC-type optical ferrules, ferrule springs for urging the optical ferrules towards a mating connection, and a back body for supporting the ferrule springs. A removable inner front body for polarity change is disclosed. A multi-purpose rotatable boot assembly for polarity change is disclosed. The multi-purpose boot assembly can be pushed and pulled to insert and remove the micro connector from an adapter receptacle.