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.

The present invention discloses a fiber optic connector comprising a housing, a spring, a ferrule assembly and a crimping seat. Before being inserted into the housing, the ferrule assembly is pre-assembled into the crimping seat in a manner of being movable relative to the crimping seat. The spring is pre-assembled into the housing before the ferrule assembly is inserted into the housing. After the pre-assembled ferrule assembly and crimping seat are inserted into the housing, the crimping seat is snap-fitted in the housing, and the spring pushes the ferrule assembly, so that the ferrule assembly is capable of being moved against the spring relative to the crimping seat. Before inserted into a housing of the fiber optic connector, some components may be pre-assembled together to form an integral assembly having a size less than that of a housing of the fiber optic connector. Accordingly, the integral assembly may be smoothly pulled through a small long pipe. After pulled through the pipe, the integral assembly may be easily and quickly inserted into the housing as a whole at one time.

A fiber optic adapter assembly is provided with a floating adapter module. The adapter assembly includes a housing, an adapter module, and a single biasing member disposed in the housing and concentrically aligned with the adapter module. The single biasing member can bias the adapter module in a direction toward an end of the housing and be compressible in the opposite direction toward the other end of the housing.

An optical fiber signal transmission jumper connector structure includes a connector body, a pair of fiber optic plugs and a sliding sleeve, for connecting a fiber optic socket to achieve signal connections. The fiber optic plugs are installed at the front end of the connector body; the sliding sleeve is slidably covered onto the connector body; the top side of the sliding sleeve has two buckle portions fixed to the fiber optic socket, and two snap holes are formed on a surface of the sliding sleeve and corresponding to two snap hooks of the connector body. The snap hooks can be pressed simultaneously to pull the connector body backward to separate from the sliding sleeve, and the pair of optical fiber plugs can be converted when the optical signal is transmitted while the connector is plugged in the fiber optic socket, so as to improve the convenience of on-site operations.

The present disclosure relates to a fiber optic connection system that uses a slide clip to provide robust retention of a fiber optic connector within a mating fiber optic adapter. In certain examples, the fiber optic connector may be a hybrid connector that provides both electrical and optical connectivity.

An optical fiber connector module for coupling to a ferrule terminated to at least one fiber in a ribbon cable is provided. The optical fiber connector module may include a first connector body member for coupling to the ferrule, the first connector body member including at least one alignment component coupling section, at least one biasing component coupling section, and a first through-channel for the ribbon cable. The optical fiber connector module may include a second connector body member coupled to the first connector body member, the second connector body member including at least one biasing component coupling section, a second through-channel for the ribbon cable, and an open side spanning the length of the second connector body member providing access to the second through-channel for the ribbon cable.

A flexible push-pull boot extends between a front end and a rear end, a rear portion has a spine and a plurality of ribs extending from the rear end toward the front end. There is also a middle portion from which a plurality of front extensions extend. At least one of the front extensions has an inwardly extending projection on an inside portion of the front extensions to retain a housing therebehind.

A factory processed and assembled optical fiber arrangement is configured to pass through tight, tortuous spaces when routed to a demarcation point. A connector housing attaches to the optical fiber arrangement at the demarcation point (or after leaving the tight, tortuous spaces) to form a connectorized end of the optical fiber. A fiber tip is protected before leaving the factory until connection is desired.

A cover for a fiber optic cable connection includes a cap portion having a first housing portion having a first housing wall and a second housing portion having a second housing wall. A union portion has a union wall defining a union opening and is configured to receive the first housing portion and the second housing portion to couple the first housing portion and the second housing portion in a closed position. The first housing wall and the second housing wall define a housing opening to receive a sealing assembly that has an inner surface and an outer surface. A sealing opening is configured to receive a fiber optic cable associated with the fiber optic cable connection. The outer surface is configured to contact at least one of the first housing wall, the second housing wall, or the union wall when the sealing assembly is received within the housing opening.

A fiber optic connector terminates a drop cable. A connector housing can include a back post where the drop cable to enters the housing. A cable clamp insert is least partially received in the back post. The cable clamp insert defines a passage for receiving the drop cable. A crimp ring is crimped onto the back post to secure the cable clamp insert to the housing and clamp the cable clamp insert onto the drop cable. Fiber optic connectors can also have a cable clamp insert and a cable clamp retainer that couples to the rear end portion of the housing whereby the cable clamp retainer pushes the cable clamp insert forward in the housing and applies an increasing force to create a tight connection between the housing and the cable clamp insert.