JP2014010157A - Optical loop back connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical loop back connector that can be reduced in cost.SOLUTION: An optical loop back connector 1 includes a pair of ferrules 3, 5 disposed parallel to each other, and an optical fiber 7 with both ends inserted to the pair of ferrules 3, 5. The loop back connector includes an in-line connector 11 housing the pair of ferrules 3, 5, to which a plug connector can be fitted, and a loop back housing 15 assembled in the in-line connector 11 and provided with a fiber holding part 13 for housing the optical fiber 7.

Description

  The present invention relates to an optical loopback connector.

  Conventionally, as an optical loopback connector, one having a first ferrule and a second ferrule as a pair of ferrules arranged in parallel and an optical fiber having both ends inserted into the pair of ferrules is known ( For example, see Patent Document 1).

  In this optical loopback connector, both ends of an optical fiber are inserted into a first ferrule and a second ferrule and fixed with an adhesive, and then incorporated into a double connector to form a loopback circuit.

JP 2006-39310 A

  However, in the optical loopback connector as described in Patent Document 1, since a duplex connector as a component dedicated to optical coupling is applied as a member that accommodates a pair of ferrules and optical fibers, the cost of the components is increased. It was.

  Accordingly, an object of the present invention is to provide an optical loopback connector capable of reducing the cost.

  The invention according to claim 1 is an optical loopback connector comprising a pair of ferrules arranged in parallel and an optical fiber having both ends inserted into the pair of ferrules, the plug connector containing the pair of ferrules. And a loopback housing provided with a fiber holding portion which is assembled to the inline connector and accommodates the optical fiber.

  This optical loopback connector has an inline connector that can accommodate a pair of ferrules and can be fitted with a plug connector, and a loopback housing that is assembled to the inline connector and provided with a fiber holding portion that accommodates an optical fiber. By applying an in-line connector for intermediate connection as a member that accommodates a pair of ferrules, there is no need to use a dedicated optical coupling component such as a double connector.

  Therefore, in such an optical loopback connector, since an inline connector for intermediate connection is applied, the cost can be reduced without degrading the accuracy of optical coupling.

  A second aspect of the present invention is the optical loopback connector according to the first aspect, wherein the inline connector includes an inline housing that accommodates the pair of ferrules, and the pair of ferrules that are assembled to the inline housing. And a spacer to be stopped.

  In this optical loopback connector, the inline connector has an inline housing that houses a pair of ferrules and a spacer that is assembled to the inline housing and locks the pair of ferrules, so that the inline connector securely holds the pair of ferrules. Can be made.

  A third aspect of the present invention is the optical loopback connector according to the second aspect, wherein the loopback housing is provided with a mounting portion that is assembled to the inline connector and covers the spacer. To do.

  In this optical loopback connector, since the attachment portion that covers the spacer by being assembled to the inline connector is provided on the loopback housing, it is possible to prevent the pair of ferrules from being locked by the spacer due to an external force or the like. .

  Invention of Claim 4 is the optical loopback connector of any one of Claims 1 thru | or 3, Comprising: The said fiber holding part is provided with the recessed part for fiber pushing which accommodates the said optical fiber, A plurality of fiber holding protrusions for holding the optical fiber are provided on the opening side of the concave portion for pushing the fiber.

  In this optical loopback connector, the fiber holding portion is provided with a fiber pressing recess for housing the optical fiber, and a plurality of fiber holding protrusions for holding the optical fiber are provided on the opening side of the fiber pressing recess. The optical fiber can be securely held in the fiber pressing recess by the fiber holding protrusion.

  Further, when the optical fiber is accommodated in the fiber holding portion by the fiber pressing recess, the optical fiber can be easily pushed into the fiber holding protrusion, and the assembling property can be improved.

  A fifth aspect of the present invention is the optical loopback connector according to the fourth aspect, wherein the plurality of fiber holding protrusions are provided on the inner and outer circumferences of the fiber holding portion, respectively.

  In this optical loopback connector, since a plurality of fiber holding protrusions are provided on the inner and outer circumferences of the fiber holding portion, even if the length of the optical fiber led out from the inline connector varies, the fiber holding portion can receive light. The fiber can be securely held.

  According to the present invention, it is possible to provide an optical loopback connector capable of reducing the cost.

1 is a perspective view of an optical loopback connector according to an embodiment of the present invention. 1 is a perspective view of an optical loopback connector according to an embodiment of the present invention. It is a disassembled perspective view of the optical loop back connector which concerns on embodiment of this invention. (A) is a perspective view before fitting a plug connector to the in-line connector of the optical loopback connector which concerns on embodiment of this invention. (B) is a perspective view when a plug connector is fitted to the in-line connector of the optical loopback connector according to the embodiment of the present invention. It is a front view when grind | polishing the ferrule assembly of the optical loop back connector which concerns on embodiment of this invention. It is a perspective view of the loopback housing of the optical loopback connector which concerns on embodiment of this invention. (A) is a perspective view before assembling the loopback housing of the optical loopback connector according to the embodiment of the present invention to the in-line connector. (B) is a perspective view when the loopback housing of the optical loopback connector which concerns on embodiment of this invention is assembled | attached to an in-line connector. (A) is a top view of the loopback housing of the optical loopback connector according to the embodiment of the present invention. (B) is XX sectional drawing of Fig.8 (a).

  The optical loopback connector according to the embodiment of the present invention will be described with reference to FIGS.

  The optical loopback connector 1 according to the present embodiment includes a pair of ferrules 3 and 5 arranged in parallel, and an optical fiber 7 having both ends inserted into the pair of ferrules 3 and 5.

  The loopback housing 15 is provided with an inline connector 11 that can receive the pair of ferrules 3 and 5 and can be fitted with the plug connector 9, and a fiber holding portion 13 that is assembled to the inline connector 11 and receives the optical fiber 7. And have.

  The inline connector 11 includes an inline housing 17 that houses the pair of ferrules 3 and 5, and a spacer 19 that is assembled to the inline housing 17 and holds the pair of ferrules 3 and 5.

  Furthermore, the loopback housing 15 is provided with an attachment portion 21 that is assembled to the inline connector 11 and covers the spacer 19.

  The fiber holding portion 13 is provided with a fiber pushing recess 23 for housing the optical fiber 7, and a plurality of fiber holding protrusions 25 for holding the optical fiber 7 are provided on the opening side of the fiber pushing recess 23. It has been.

  Further, the plurality of fiber holding protrusions 25 are respectively provided on the inner and outer circumferences of the fiber holding portion 13.

  As shown in FIGS. 1 to 8, the pair of ferrules 3 and 5 are arranged in parallel, and both ends of the optical fiber are inserted into the ferrule assembly 27. In the ferrule assembly 27, the end surface of the optical fiber 7 is polished by a polishing jig 29 that holds the ferrule assembly 27 and a polishing disk 31 that polishes the tip surfaces of the pair of ferrules 3 and 5.

  In addition, by polishing in the state of the ferrule assembly 27 as described above, the polishing is performed while holding the dual connector in the polishing jig 29 in a state where the ferrule assembly 27 is accommodated in a large dual connector. The polishing jig 29 can be downsized. In addition, the quantity that can be processed at a time can be increased.

  The pair of ferrules 3 and 5 side of the ferrule assembly 27 is accommodated in the inline connector 11.

  Here, as shown in FIG. 4, the in-line connector 11 is an intermediate connection connector into which the plug connector 9 can be fitted. When the in-line connector 11 is fitted to the plug connector 9, a ferrule (not shown) in the plug connector 9 and the pair of ferrules 3 and 5 are connected, and the mating optical fiber 33 and the optical fiber 7 are optically coupled. Is done. By applying the connector for intermediate connection in this way, the accuracy of optical coupling can be made the same as that of the intermediate connection.

  Such an inline connector 11 includes an inline housing 17 and a spacer 19. The in-line housing 17 is formed in a rectangular parallelepiped cylinder shape, and a pair of ferrules 3 and 5 are accommodated in parallel. A spacer 19 is assembled to the inline housing 17.

  The spacer 19 is assembled from the upper surface side of the portion of the in-line housing 17 in which the pair of ferrules 3 and 5 are accommodated, and is movable between a temporary locking position positioned above and a main locking position positioned below. Has been placed.

  The spacer 19 allows the pair of ferrules 3 and 5 of the ferrule assembly 27 to be inserted into the in-line housing 17 at the temporary locking position, and the pair of ferrules 3 and 5 are locked at the main locking position to lock the in-line housing 17. To prevent the ferrule assembly 27 from coming off.

  The ferrule assembly 27 accommodated in such an inline connector 11 is led out from the inline connector 11 on the optical fiber 7 side, and the led optical fiber 7 is held by a loopback housing 15 assembled to the inline connector 11. .

  The loopback housing 15 includes a mounting portion 21 and a fiber holding portion 13. The attachment portion 21 is formed in a rectangular parallelepiped cylinder, and is integrally fixed to the inline connector 11 on the spacer 19 side of the inline connector 11 via a locking portion.

  The attachment portion 21 is disposed so as to cover the outer periphery of the spacer 19 in a state where it is assembled to the in-line connector 11. For this reason, even if the spacer 19 tries to move to the temporary locking position by an external force or the like, the movement is restricted by the mounting portion 21, and the pair of ferrules 3 and 5 are not unlocked.

  Such an attachment portion 21 is inserted into the optical fiber 7 led out from the inline connector 11 when assembled to the inline connector 11, and the optical fiber 7 led out from the attachment portion 21 is held by the fiber holding portion 13. Is done.

  The fiber holding portion 13 is formed in an annular shape by one member continuous with the attachment portion 21, and includes a fiber pushing recess 23 and a plurality of fiber holding protrusions 25. The fiber pushing recess 23 is provided between the bottom wall, the inner peripheral wall, and the outer peripheral wall formed higher than the inner peripheral wall, and accommodates the optical fiber 7.

  A plurality (three in this case) of fiber holding projections 25 for holding the optical fiber 7 are provided on the opening side of the fiber pushing recess 23.

  The plurality of fiber holding protrusions 25 are provided on the opening side of the fiber pushing recess 23 at two equal intervals in the circumferential direction, one on the inner peripheral wall and one on the outer peripheral wall. The plurality of fiber holding protrusions 25 are engaged with the outer periphery of the optical fiber 7 pushed into the fiber pushing recess 23 from above, and hold the optical fiber 7 in the fiber pushing recess 23.

  By providing such a plurality of fiber holding projections 25 on the inner and outer circumferences, even if the length of the optical fiber 7 led out from the inline connector 11 varies, it can be held according to the length.

  Specifically, for example, when the derived optical fiber 7 is short, the optical fiber 7 is held by the fiber holding protrusion 25 provided on the inner peripheral wall, and when the derived optical fiber 7 is long, the optical fiber 7 is Is held by a fiber holding projection 25 provided on the substrate.

  In assembling the optical loopback connector 1 configured in this way, first, both ends of the optical fiber 7 are inserted into a pair of ferrules 3 and 5 arranged in parallel, and the ferrule assembly 27 is assembled.

  Next, the ferrule assembly 27 is held on the polishing jig 29, the end surfaces of the pair of ferrules 3, 5 are polished by the polishing disk 31, and the end surfaces of the optical fiber 7 are polished.

  Next, the pair of ferrules 3 and 5 of the polished ferrule assembly 27 are accommodated and arranged in the in-line connector 11 from the spacer 19 side of the temporary locking position, and the spacer 19 is moved to the final locking position to move the pair of ferrules 3. , 5 are locked.

  Next, the optical fiber 7 led out from the inline connector 11 is inserted into the attachment portion 21, the attachment portion 21 is locked to the inline connector 11, and the loopback housing 15 is assembled to the inline connector 11.

  Then, the optical fiber 7 positioned in the fiber holding portion 13 is pushed into the fiber pushing recess 23, and the optical fiber 7 is held by the plurality of fiber holding projections 25, and the assembly of the optical loopback connector 1 is completed.

  In such an optical loopback connector 1, an in-line connector 11 that accommodates a pair of ferrules 3 and 5 and can be fitted with a plug connector 9, and a fiber holding portion 13 that is assembled to the in-line connector 11 and accommodates the optical fiber 7. Therefore, it is necessary to use an optical coupling-dedicated component such as a duplex connector by applying the inline connector 11 for intermediate connection as a member for accommodating the pair of ferrules 3 and 5. Absent.

  Therefore, in such an optical loopback connector 1, since the in-line connector 11 for intermediate connection is applied, the cost can be reduced without degrading the accuracy of optical coupling.

  The inline connector 11 includes an inline housing 17 that accommodates the pair of ferrules 3 and 5 and a spacer 19 that is assembled to the inline housing 17 and locks the pair of ferrules 3 and 5. The pair of ferrules 3 and 5 can be reliably held.

  Further, since the loopback housing 15 is provided with an attachment portion 21 that is assembled to the in-line connector 11 and covers the spacer 19, it prevents the pair of ferrules 3 and 5 from being locked by the spacer 19 due to an external force or the like. can do.

  The fiber holding portion 13 is provided with a fiber pushing recess 23 for housing the optical fiber 7, and a plurality of fiber holding protrusions 25 for holding the optical fiber 7 are provided on the opening side of the fiber pushing recess 23. Therefore, the optical fiber 7 can be reliably held in the fiber pushing recess 23 by the fiber holding projection 25.

  Furthermore, when the optical fiber 7 is accommodated in the fiber holding portion 13 by the fiber pushing recess 23, the optical fiber 7 can be easily pushed into the fiber holding protrusion 25, and the assembling property can be improved.

  In addition, since the plurality of fiber holding protrusions 25 are provided on the inner and outer circumferences of the fiber holding portion 13, even if the length of the optical fiber 7 led out from the inline connector 11 varies, the fiber holding portion 13 has The optical fiber 7 can be reliably held.

  In the optical loopback connector according to the embodiment of the present invention, the plurality of fiber holding protrusions are provided on the inner periphery and one on the outer periphery, but the plurality of fiber holding protrusions are provided only on the inner periphery or on the outer periphery. The total number, the number in the arrangement, and the like can be selected as appropriate.

DESCRIPTION OF SYMBOLS 1 ... Optical loop back connector 3, 5 ... Pair ferrule 7 ... Optical fiber 9 ... Plug connector 11 ... Inline connector 13 ... Fiber holding part 15 ... Loop back housing 17 ... Inline housing 19 ... Spacer 21 ... Mounting part 23 ... Fiber pushing Recess 25 for fiber holding projection

Claims (5)

An optical loopback connector comprising a pair of ferrules arranged in parallel and an optical fiber having both ends inserted into the pair of ferrules,
An optical device comprising: an in-line connector that accommodates the pair of ferrules and can be fitted with a plug connector; and a loopback housing that is assembled to the in-line connector and includes a fiber holding portion that accommodates the optical fiber. Loopback connector. The optical loopback connector according to claim 1,
The in-line connector includes an in-line housing that houses the pair of ferrules, and a spacer that is assembled to the in-line housing and locks the pair of ferrules. The optical loopback connector according to claim 2,
An optical loopback connector, wherein the loopback housing is provided with a mounting portion that is assembled to the inline connector and covers the spacer. The optical loopback connector according to any one of claims 1 to 3,
The fiber holding portion is provided with a fiber pressing recess for housing the optical fiber, and a plurality of fiber holding protrusions for holding the optical fiber are provided on the opening side of the fiber pressing recess. Features an optical loopback connector. The optical loopback connector according to claim 4,
The optical fiber loopback connector, wherein the plurality of fiber holding protrusions are provided on inner and outer circumferences of the fiber holding portion, respectively.

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