| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 385065000 | Groove-type holding structure | 16 |
| 20080273838 | Optical Fibre Connector - An optical fibre connector for forming a mechanical splice between first and second optical fibres comprises a connector body arranged to clamp the optical fibres therein, wherein the connector body is configured to be at least partially opened to release, or to allow insertion of, at least one of the optical fibres by a squeezing action applied to the connector body. | 11-06-2008 |
| 20090003773 | Method of forming an optical fiber - Marker grooves of an optical fiber are formed by a marker groove forming device including at least, on a substrate, a fiber guide and optical fiber pressing springs formed on a side wall surface in the fiber guide. The optical fiber pressing springs include edges contacted and pressed to the side of an optical fiber stored in the fiber guide, and plate springs for pressing the edges to the side of the optical fiber with fulcra on the side wall surface in the fiber guide. The optical fiber is pressed to a side wall surface in the fiber guide, and the edges are formed at a predetermined distance from each other. | 01-01-2009 |
| 20090003774 | Marker groove forming device - Marker grooves of an optical fiber are formed by a marker groove forming device including at least, on a substrate, a fiber guide and optical fiber pressing springs formed on a side wall surface in the fiber guide. The optical fiber pressing springs include edges contacted and pressed to the side of an optical fiber stored in the fiber guide, and plate springs for pressing the edges to the side of the optical fiber with fulcra on the side wall surface in the fiber guide. The optical fiber is pressed to a side wall surface in the fiber guide, and the edges are formed at a predetermined distance from each other. | 01-01-2009 |
| 20090269011 | HYBRID FIBER/COPPER CONNECTOR SYSTEM AND METHOD - A hybrid fiber/copper connector assembly which permits repair of damaged fibers or copper conductors carried by a hybrid fiber/copper cable without requiring replacement of the entire connector assembly or the cable is disclosed. The hybrid fiber/copper connector assembly disclosed also allows individual hybrid fiber/copper connectors of the assembly to be converted from one gender to a different gender. The hybrid fiber/copper connectors of the assembly include removable keying members mountable to housings of the connectors. The removable keying members allow gender conversion and proper mating and orientation. The hybrid fiber/copper connector assembly also allows the individual connectors of the assembly to be converted from being hybrid fiber/copper connectors to being only fiber connectors or only copper connectors. | 10-29-2009 |
| 20090285533 | Optical fiber array - An optical fiber array is formed by including m number of optical fibers (where, m is a natural number other than 0), an optical fiber aligning member on a surface of which, at least m number of grooves are formed in parallel, and a cover. An end portion of the optical fiber is disposed in the groove of the optical fiber aligning member, and is held by the optical fiber aligning member and the cover. Furthermore, when being held by the optical fiber aligning member and the cover, by setting a line segment which has connected a point on an outer periphery in contact with the cover, of the optical fiber to be a straight line, the optical fiber is supported at three points by the groove and the cover. Moreover, by setting an angle of formation of the groove to be constant for all the grooves, and by setting arbitrarily a depth of the groove to differ, and by setting arbitrarily a cladding diameter of the optical fiber arranged in the groove, a line segment which has connected a center of each of the m number of optical fibers disposed in the groove is set to be an arbitrary non straight line shape. | 11-19-2009 |
| 20100178010 | CONNECTION SYSTEM COMPRISING A CONNECTOR AND A RECEPTACLE - A connection system including a connector and a receptacle through each of which an optical fiber is passed, wherein the connector includes a ferrule and also a cylindrical shoulder with a larger diameter than the ferrule on the side of the ferrule facing the fiber and the receptacle has a stepped bore for receiving the ferrule and the cylindrical shoulder, wherein the dimensions of the ferrule, of the cylindrical shoulder and of the stepped bore correspond to a standard FSMA connector or receptacle, wherein the connector has at least one groove and the receptacle at least one tongue corresponding thereto, wherein the tongue projects into the groove when the connector and receptacle are plugged together and wherein the groove is defined on the cylindrical shoulder and the tongue is defined on the bore. | 07-15-2010 |
| 20100284654 | OPTICAL CONNECTING MEMBER AND METHOD OF FITTING THE SAME - To provide an optical connecting member capable of positioning and connecting a coated fiber by a simple connecting work with high precision, and a method of fitting the same. | 11-11-2010 |
| 20110013870 | COUPLING DEVICE FOR OPTICAL FIBRES - A coupling device ( | 01-20-2011 |
| 20120014649 | METHOD AND APPARATUS FOR ALIGNING OPTICAL TRANSPORTS IN A FERRULE - Methods and apparatus for aligning optical transports, such as waveguides and optical fibers, in a ferrule of an optical connector. The ferrule has an open side through which optical transports may be inserted into a transport cavity in the ferrule from a direction transverse the longitudinal direction of the optical transports and ferrule. To assemble the optical transports in the ferrule, the ferrule is positioned with its front face abutting and aligned with a jig that has an opening substantially identical to the ferrule cavity. The jig has grooves in a bottom surface of the cavity into which the optical transports will be inserted for transversely aligning the optical transports. The optical transports are then dropped into the aligned cavities of the ferrule and jig through the open sides of the ferrule and jig so that the front ends of the optical transports sit at least partially in the V-shaped grooves of the jig, thereby aligning the transports in the transverse dimension. A press cures adhesive in the cavity to cure the adhesive and fix the transports in the ferrule. The optical transports are then cleaved or otherwise cut flush with the front face of the ferrule. The process is repeated for each row of optical transports with the height of the bottom of the cavity in the jig adjusted for each subsequent row by an amount equal to the thickness of a row of the optical transports. | 01-19-2012 |
| 20120014650 | Apparatus and Method for Aligning Optical Transports in a Ferrule - Method and apparatus for aligning optical transports in a ferrule. The ferrule has an open side through which optical transports may be laterally placed in a transport cavity. The transports are aligned in the ferrule by mounting the ferrule on a jig having grooves into which the ends of the optical transports are inserted for transversely aligning the fibers in the ferrule. A row of transports is placed in the ferrule cavity with the front ends of the transports extending past the ferrule and into the grooves of the jig, thereby laterally aligning the transports with the grooves. The fibers are affixed to the ferrule. The ferrule can then be removed from the jig and the front ends of the transports that extended into the grooves of the jig cleaved flush with the front face of the ferrule. Additional rows of transports may be aligned in the ferrule in the same manner using different jigs. C-shaped grooves can be employed to separate the horizontal alignment from the vertical alignment. Specifically, horizontal alignment is effectuated by the opposing edges of the groove at the mouth of the C shape engaging the transports and vertical alignment is effectuated by the cladding layer of the row of transports resting on the tops of the grooves. It also is possible to create effective grooves of a smaller size than might otherwise be manufacturable in a single jig piece by, instead, fabricating two jig pieces, each with larger grooves and longitudinally aligning the two jig pieces with their respective grooves laterally offset from each other so that each jig piece effectively provides half of the groove. | 01-19-2012 |
| 20120177326 | MINI DOUBLE-CORE OPTICAL FIBER CONNECTOR - Embodiments of the present invention relate to a connector, and specifically disclose a mini double-core optical fiber connector. The mini double-core optical fiber connector includes: a shell having a containing body, a ferrule assembly having a pair of ferrules and a pair of ferrule handles, a pair of elastic elements and a tail cover; the containing body of the shell has a first end, a second end and a containing groove extending from the second end to an inner flat bottom, where the first end is opened with two through holes; the containing body of the shell contains the ferrule assembly and the pair of elastic elements, and is connected to the tail cover to form a firm assembly; the ferrule handle includes a first tubular end portion and a second tubular end portion. | 07-12-2012 |
| 20130251310 | CONNECTOR FOR RIBBON OPTICAL FIBER - A connector for ribbon optical fiber comprises a plug ( | 09-26-2013 |
| 20140126861 | FIXING DEVICE FOR OPTICAL FIBER DETECTION - An optical fiber fixing device includes a base, first fixing block and a second fixing block. The base includes an upper surface has a receiving groove and a groove which is connected with the receiving groove. The receiving groove receives an optical fiber connector, the optical fiber connector receives a plurality of optical fibers, and two ends of the optical fibers separately protrude out of the optical fiber connector. The groove has an optical detecting device, the detecting device defines a plurality of light apertures. The first fixing block is set on the upper surface, which is configured to fix the optical fiber connector into the receiving groove. The second fixing block is received in the groove, in order to fix the detecting device in the groove, the plurality of light apertures are aligned with the plurality of optical fibers. | 05-08-2014 |
| 20140321809 | OPTICAL FIBER SUBASSEMBLY - An interposer sub-assembly for holding or gripping a plurality of optical fibers in a multi-fiber ferrule connector including: a substrate comprising a bottom surface, a top surface, and a front face; a pair of guide pin grooves on the bottom surface of said substrate, wherein the pair of guide pin grooves are capable of receiving guide pins from a ferrule connector; and a plurality of resilient fiber grooves formed on the bottom surface, wherein the plurality of resilient fiber grooves are configured for receiving a plurality of optical conduits. | 10-30-2014 |
| 20150016779 | PLUG-IN CONNECTION SYSTEM FOR PLUG-IN CONNECTORS - A plug-in connection system for a two-piece plug-in connection, comprising a plug-in connector and a matching mating connector, wherein the plug-in connector includes a latching unit with latching hooks provided thereon, which engage in groove areas on the mating connector. Here, a plurality of groove areas is circumferentially provided on the mating connector implemented in a sleeve-type way, which are offset relative to each other by a certain distance ds in relation to the plug-in edge of the mating connector. In the case of groove areas which are arranged in multiple pairs on the external side of the plug-in sleeve, only one latching hook pair engages at any one time during the plug-in operation into a latching groove in the groove area, whereas the other latching hooks respectively remain on a sawtooth flank before or after the one occupied latching groove. | 01-15-2015 |
| 20160252682 | FIBER OPTIC CONNECTOR HAVING AN OPTICAL FIBER THAT IS AXIALLY MOVEABLE WITHIN A FERRULE | 09-01-2016 |
