JP2003172827A - Closure for switching optical cable connection - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce initial investment in the optical line equipment of optical cable, to efficiently cope with increase in demand for service, to simplify handling as an optical cable connection switching closure that has a switching/ wiring function for enhancing the use efficiency of coated optical fibers and the capability for dealing with change in the demand, to renew and manage, on the job site in real time, equipment information such as a wire gauge of the optical line equipment, route information, connection history information for connection/switching, etc., and to attain readiness for service and low cost. <P>SOLUTION: The optical cable connection switching closure is equipped with a cable holding part 2 for introducing, drawing and supporting a trunk line cable (a) of an optical cable. In a sleeve 6, there are arranged a connecting tray 3 for introducing/drawing a coated optical fiber in/out of the coated optical line connecting closure 1 as well as storing the fiber therein, a tray 4 for reserved coated optical fiber, and a tray 5 for a straight-passing coated optical fiber. In the structure of the closure, there is also arranged in the sleeve a line identification chip 7 consisting of a two-dimensional code or a RFID element for which the line data of the fiber optic cable is digitized and then pattern- displayed. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication cable, and more particularly to an optical circuit facility for an optical fiber cable having an optical fiber core (hereinafter referred to as an optical cable). The present invention relates to an optical cable connection switching closure having a wiring function, and particularly to a cross-connect closure.

[0002]

2. Description of the Related Art Conventionally, when branching, pulling in, connecting, etc. of an optical cable, a core for connecting the cable core wires to each other in a closure and accommodating the connecting portion and an extra length of the cable core wire. A closure having a line connection extra length storage tray is known. In this closure, a connecting portion such as a connector for connecting the optical fiber cores drawn from the main line of the optical fiber for the core line or the cores drawn from the branching optical cable is housed, and the connected cores are connected. It is used as a closure for exclusive use of the connection function or a closure for exclusive use of the drop function as it is provided with a core extra length storage portion for winding and protecting the extra length portion.

[0003]

However, in a communication network using an optical cable, it is required to provide an optimum wiring form of the optical access network and to provide an optical access service promptly and inexpensively. In order to minimize the initial investment of optical fiber line equipment, the closure has a high-density wiring to the limit, so it is difficult to identify the wiring management. Depending on the situation, there is a problem that it is not suitable for on-site work and management work takes too much time, and it is not possible to respond quickly to the customer's request, so it is not possible to provide early service, the efficiency of optical access system equipment There is no one that is fully satisfactory for economical and economical use. In particular, as the density of cables, the increase in the number of cores, and the increase in transmission speeds, demand fluctuations are expected to change significantly due to intensifying communication competition, and it is difficult to carry out switching work and wiring rearrangement accompanying connection branches, Furthermore, there is a problem that expansion cannot be easily handled and it cannot be made compact, and there is a problem that access system equipment cannot be used efficiently and economically.

The present invention has been made in view of these conventional circumstances, and the connection function and the switching function for each core wire of the optical cable wiring can be integrated and organized, and the storage and the core wires can be arranged. It is easy to increase or decrease and it is easy to add more. It is possible to reduce the initial investment of the optical fiber line equipment of the optical cable, efficiently respond to the increase in service demand, and significantly improve the usage efficiency of the core wire and the ability to respond to demand fluctuations. An optical cable connection switching closure with a switching / wiring function that can be used.
In particular, high-density wiring can be read in real time quickly and easily, and its identification can be easily performed to facilitate planning and management of each process from service order to design, construction, and maintenance. In addition to reliable core line switching, you can update and manage equipment information such as line number of optical fiber line equipment, route information, connection history information of connection / switching in real time on the spot, making service prompt,
The cost can be reduced, and the facility information can be updated by accessing the data from the management center, which enables reliable switching and wiring work, and improves the reliability of wiring management work. At the same time, it can be easily read from the outside of the closure for wiring identification, and it is also possible to quickly find a closure for construction, reducing management work time and easily performing work suitable for on-site work, and excellent workability SUMMARY OF THE INVENTION It is an object of the present invention to provide an optical cable connection switching closure which can store a connection portion in a very compact manner and which is easy to handle in an inexpensive form.

[0005]

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a core wire lead-in / out portion for leading in / out an optical cable core wire, and a core wire holding for supporting the core wire entering from the core wire lead-in / out portion. Portion, a connector housing portion for housing a connector that connects the core wires to each other, a connection tray including a core wire extra length housing portion for winding and storing the extra core wire length, and a tray for holding core wires An optical cable connection switching closure for arranging a tray for pull-through core wires in a sleeve, wherein two-dimensional code or RFID element (Radi) in which pattern data is displayed after digitizing line data of the optical cable core wires is used.
o Frequency Identity
n Device), which is provided in the sleeve for the line identification chip.

According to the present invention, in the optical cable connection switching closure, the line identification chip is capable of recording and managing optical line management information, managing record data distribution, storage, and update work comprehensively and being readable and writable. In addition, a line identification chip composed of a two-dimensional code or an RFID element is provided on the adapter holding member at a position corresponding to the adapter of the core of each line. Further, in this cable connection switching closure, a plurality of the connecting trays are stacked and the connecting trays are rotatably connected by a hinge portion, and the retaining core wire is arranged by stacking in the center of the sleeve. The adapter holding member is provided on both sides of the tray for drawing and the tray for pulling-in core wire, and the adapter holding member is arranged above the tray for holding core wire and the tray for pulling-out core wire.

Further, in the optical cable connection switching closure of the present invention, the adapter holding member is rotatably connected to the support portion by a hinge portion, and the holding core wire tray and the pull-in core wire tray in the sleeve. Characterized by the structure that the top can be opened, connection wiring work can be easily performed and workability is excellent, and the connection function and switching function for each core wire can be integrated and organized, and the storage and core It is an easy and reliable optical cable connection switching closure that can easily increase or decrease each line and is easy to add and can store the connection part in a very compact manner.

[0008]

The optical cable connection closure of the present invention is a closure for optical cable connection switching in which a connection tray for storing and receiving optical fiber core wires, and a tray for holding core wires and a tray for pulling through core wires are provided in a sleeve. In addition, since the line identification chip composed of a two-dimensional code or RFID element in which the line data of the optical cable core wire is digitized is displayed in the sleeve, the line identification chip is provided. High-density wiring can be read and written in real time quickly and easily by a mobile terminal, and the connection function and switching function for each core of the optical cable wiring can be integrated and organized. It is simple and easy to add, and it is possible to greatly improve the usage efficiency of core wires and the ability to respond to demand fluctuations. The line identification chip provided on the adapter holding member in this sleeve is used for the line number, route information and connection / connection of the optical line equipment.
Facility information such as switching connection history information can be updated and managed on-site in real time, making it possible to quickly respond to services and reduce costs, and it is also possible to update facility information by accessing data from the management center. It is possible.
The core wire can be switched easily and securely by inserting and removing the connector plug provided on the adapter holding member.
It can be used for switching, and the connection function and switching function for each core wire are integrated and organized, and work such as connection work of other core wires and inspection, repair, confirmation, adjustment of connection status is also extremely easy. be able to.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described with reference to the drawings. The core wire connection closure 1 shown in FIG. 1 is provided with a cable grip portion 2 for inserting and supporting a trunk cable a of an optical cable. An optical cable connection switching closure for arranging a connection tray 3 for storing and receiving the core wire in and out of the core wire connection closure 1, a holding core wire tray 4 and a through core wire tray 5 in a sleeve 6. Further, a line path identification chip 7 composed of a two-dimensional code or an RFID element, which is pattern-displayed after digitizing the line data of the optical cable core wire, is provided in a sleeve as a cross-connect closure. .

The line identifying chip 7 is a chip in which data is digitized by a matrix type two-dimensional code and expressed in a rectangular pattern, or a special semiconductor memory chip is wirelessly (electromagnetically induced) from the outside. By using the RFID element of the device that supplies power and wirelessly performs read / write operation of predetermined data, optical line management information is recorded, recorded data is distributed, stored, and updated work is comprehensively managed, and read / write is possible. A line identification chip 7 made of a two-dimensional code or an RFID element is provided on the adapter holding member 9 at a position corresponding to the adapter 8 which is a connecting portion of the core wire of each line. In this case, the adapter 8 is arranged in parallel in one or a plurality of steps on the side wall of the adapter holding member 9 bent in a convex shape, and the adapter 8 is provided on the top wall at a position aligned with the line wired along the adapter 8. The line identification chip 7 is adhered and arranged on the upper side to facilitate line identification. In this line identification chip 7, the line number, route information, connection / switching calendar information, etc. of the wiring circuit as the information of the optical line equipment are identified for each connector. 7, the information used in the work site can be read in real time to check the line information and the like, and then the wiring can be switched and the information can be updated. The line path identification chip 7 can a two-dimensional bar code or FRID element ₇₁ alone or in combination to the line path identification chip 7. For example, the two-dimensional bar code is not attached to the adapter holding member 9 but is attached to the wiring side via an attaching piece or a sheet, or is attached to the adapter holding member 9 or the adapter side and is also attached to the wiring side. have been installed through the strip, can be further and form the the combined type with an FRID element ₇₁ to the adapter holding member 9 other members.

[0011] Then, in the RFID element device _71, the portable terminal even from the outside of the closure in addition to switch connection information management optical line path equipment, and to recognize the matters required for the job by the portable phone, a construction corresponding closure It is better to use one that can be quickly searched for and can simplify workability. In addition, it is preferable to use a device capable of collectively managing real-time equipment information, construction history, etc. even on the center side by combining the optical cable connection switching closure with the mobile terminal or mobile phone. It is desirable that the terminal can access the management center and can receive the information remotely from the management center and collate the information. And
After finishing the work on the optical line facility, access the management center to update the history information of the line identification chip 7 and confirm the line information etc. by the line identification chip 7 identified for each connector. After that, it is considered that the switching work can be performed.

Further, in the example of this optical cable connection switching closure, the connecting tray 3 supports the core wire lead-in / out portion 10 into / from which the optical cable core wire is led in / out, and the core wire from the core wire lead-in / out portion 10. The connection tray 3 is provided with a holding portion 11, a connector storage portion 12 for storing a connector connecting the core wires to each other, and a core wire extra length storage portion 13 for winding and storing the extra core wire length. A plurality of the above are stacked and the connection trays 3 are rotatably connected to each other by a hinge portion 14, and are arranged on both sides of a tray 4 for a holding core wire and a tray 5 for a pulling through core wire, which are located at the center of the closure 1. It has been designed so that the core wire connection work can be performed easily.

The holding core wire tray 4 and the pulling-through core wire tray 5 are stacked in the center of the sleeve.
The connecting tray 3 is provided on both sides thereof, and an adapter holding member 9 is arranged above the holding core wire tray 4 and the pulling through core wire tray 5, and the adapter holding member 9 has a convex shape at the center. It is composed of a bent flat plate 15, and the bent flat plate 15 is rotatably connected to a supporting member 17 by a hinge portion 16. The tray 4 for holding core wire and the tray for pulling through core wire in a sleeve 6 are formed. The configuration in which the upper part of 5 can be opened allows the wiring work, other connection work of the core wire, and the work such as inspection, repair, confirmation and adjustment of the connection condition to be performed very easily.

The connecting tray 3 and the holding core wire tray 4 and the pull-in core wire tray 5 are molded products integrally molded of synthetic resin, and as shown in FIG. It has an outer shape and is used as a core wire tray in a state in which the trays 3 and the trays 4 and 5 are stacked, and the guide ribs or the core wire locking pieces 30 are respectively provided in the trays to partition the inside of the trays, The wire is drawn into the tray and wound in a loop to be stored.

As the sleeve 6, a rectangular or cylindrical casing is used. As shown in FIGS. 2 to 3, the sleeve 6 is divided into an upper sleeve and a lower sleeve, and the upper and lower sleeves are detachable. It is preferable to use a structure in which the hinge fastener 20 (grip with a handle) can be hermetically integrated. Inside the sleeve 6, there is provided a tension member gripping portion 21 to which a tension member of the main cable a can be fixed, and the pulling cable b is further connected via the cable gripping portion 22 to the tension member gripping portion 2.
It can be fixed with 3. In this case, as for the connecting tray 3, the lowermost connecting tray 3 is placed on a mount 25 provided on a frame 24 fixed in a lower sleeve so that wirings can be distributed, organized and stored. Is good.

For example, as shown in FIG. 4, a fixed station line (a core line in which a division loss is included in the number of demands in a fixed line section after 5 years) and an auxiliary line (to ensure flexibility for demand fluctuations, the fixed station In the wiring example of the cross-connect closure in which a core wire provided in addition to the wire) and a communication auxiliary wire (an auxiliary wire provided to communicate with a fixed wire section of the auxiliary wire) are wired, a 200-core trunk cable a is connected. Closure No. 1, the branch line is divided into two 40-core fixed station lines c and two 40-core auxiliary lines d. The fixed station lines c are led out via the switching adapter 8 as pull-up cables b, and auxiliary lines d
Is a cross connection closure No. as an auxiliary communication line e via the switching adapter 8. 2 is derived. Then, the cross-connect closure No. 2, in the same manner as described above, the main cable a is connected to two 40-core fixed station lines c ₁
And the two 40-core auxiliary lines d ₁ are further branched, and the auxiliary lines d ₁ are cross-connect closure Nos. 2 as the 40-wire auxiliary line d ₁ through the switching adapter 8 and the connection auxiliary line e ₁ for the cross-connect closure No. 3 is derived. Furthermore, this cross connect closure No. 3, the remaining trunk cable a is 40
The fixed central line c ₂ is branched into the fixed central line c ₂ and the 40th auxiliary line d _2, and the fixed central line c ₂ is led out as a pull-up cable b ₂ via the switching adapter 8, and the auxiliary line d ₂
Also through the switching adapter 8 as the auxiliary communication line e ₂ for the cross-connect closure No. 4 is derived. And the cross-connect closure No. 4, the trunk cable a is branched into a fixed station line c ₃ of 40 cores and a communication auxiliary line e ₂ of 40 cores is branched into an auxiliary line d ₃ to obtain a fixed station line c ₃
Is led out as a pull-up cable b ₃ via the switching adapter 8, and the communication auxiliary line e ₃ is wired in a fixed wiring section. In each switching adapter 8, the wiring point switching / wiring function in the optical line facility is It can be performed.

In this embodiment, the connection tray 3 is 1 in the case of a multi-layered laminated case having 4 to 5 trays.
Tray, 20 cores for 80-100 cores, 1 tray, 40
Since it is used as a storage tray of 160 to 200 cores, it is suitable for high-density wiring. And tape connection 1
The number of tape connection cores can be selected from the upper stage to the lower stage (branch core wire) by selecting appropriately when storing 100 cores or 200 cores, and each stage can be effectively used from the lower stage to the upper stage. In case of expansion corresponding to, install each tray 1
It can be adapted by adding to the uppermost stage.

An elastic holding member (not shown) provided with a core wire insertion hole having a separation slit is press-fitted into the core wire lead-in / insertion portion 11 formed on the connecting tray 3 to support the core wire. As the elastic holding member, a nylon tube having an insertion hole corresponding to the core diameter or the number of core wires is selected and used. Further, the connector storage portion 12 and the extra core length storage portion 13 may be partitioned by selecting guide ribs and side walls as necessary, and the core wire locking piece 3 for preventing the core wire from floating.
0 or the locking claws are integrally formed to surely hold the extra-length core wire or the connector to be the core-wire connecting portion in the tray, or the connector housing portion 12 or the core wire extra length housing portion 13 It is also possible to combine the trays that are divided into only one, and separate and organize the core wires for each upper and lower tray, and the bending of the fiber core wire from the cable insertion part is minimal, and there is no twist when storing the core wire. Care should be taken to ensure safe, high-density storage and high reliability.

In this case, one connecting tray 3 selected from the connecting trays 3 stacked in multiple stages can be raised and opened to open the overlapping surface, and the inner surfaces of the connecting trays 3 are exposed. Therefore, the connection and wiring work of the storage core wire can be easily performed.

That is, the hinge 16 of the upper connecting tray 3
If one end is rotated around the fulcrum, the connection tray 3 below
The upper surface of can be opened, and in the connection tray 3,
It is extremely easy to integrate the operations such as storage of the separated connection portion of the core wire, storage and storage of the extra core wire length, new branching work, and inspection, repair, confirmation, and adjustment of the wiring system.

The optical fiber cable connecting tray 3 and the circuit path identifying chip 7 formed of a two-dimensional code or an RFID element, which is pattern-displayed after digitizing the optical cable cable line data of the optical cable core,
It is used by being incorporated in a tubular closure 1 composed of a split sleeve 6 which is detachably fixed. A wiring processing guide 18, 19 is provided in a frame 24 in the closure 1.
And a cable gripping tool and a tension member gripping tool 21,
23 and 23 are integrally formed so that the cables a and b can be securely arranged and fixed.

Explaining an example of the closure 1 provided with end face plates fitted to the fitting portions of both end walls of the sleeve 6 of the closure 1, the end face plates are inserted through spacers (not shown),
The trunk optical cable a is pierced and fixed by the cable holding metal fitting 2, and the tension member of the cable is connected and connected to the tension member holding metal fitting 21. Further, the tape core wire branched and led out from the main line optical cable a is processed by the connection tray 3 and led out from the end face plate and wired as a pull-through cable b. (FIG. 1) The spacer is provided with a large number of blocking holes for inserting the cables, and when the spacer is pulled down, the blocking holes are opened so that the cables can be led in and out of the closure. Further, the closure 1 is abutted and hermetically coupled to the split joint surface with a gasket interposed therebetween, but is hooked and coupled integrally with a hinge portion provided outside the sleeve by a hinge fastener 20 formed of a loop-shaped ring. ing.

The connecting tray 3 has a radius of curvature of 3
The core wire can be arranged and stored by securing 0 mm or more, and various connection parts, for example, fusion splicing sleeve, mechanical splice, MT connector, etc. can be stored, and the connection tray 3 is laminated in four stages. It is possible to open / close or attach / detach each core wire tray unit so that the core wire extra length and the core wire connecting portion can be housed together.

[0024]

Industrial Applicability The present invention provides a connection tray for inserting and receiving optical fiber cores, and an optical cable connection switching closure for arranging a holding core wire tray and a pull-through core wire tray in a sleeve. , The line data of the optical cable is digitized, and a line identification chip composed of a two-dimensional code or an RFID element that is pattern-displayed is arranged in the sleeve to record the management information of the optical line. It is possible to comprehensively manage the distribution, storage, and updating of recorded data, and to read high-density wiring in real time quickly and easily, and to organize the connection and switching functions for each core of the optical cable wiring. It is possible to easily store and increase or decrease for each core wire, and it is easy to add more,
In addition to greatly improving the usage efficiency of core wires and the ability to respond to demand fluctuations, wiring can be easily identified to facilitate planning and management of each process from service order to design, construction, and maintenance. The core wire can be switched easily and surely by plugging and unplugging, and the wiring in the optical cable connection switching closure as an optical line facility can be easily identified to plan each process from service order to design, construction, and maintenance. The management can be simplified, and moreover, the core wire can be switched easily and surely by inserting and removing the connector plug, and the equipment information such as the line number of optical fiber line equipment, route information, and connection / switching connection history information can be obtained in real time on site. Update management can be performed, and the service can be promptly responded and the cost can be reduced, and data from the management center can also be accessed to update equipment information. It is also possible to date, it is possible to easily read the wiring identification from the outside of the closure with a mobile terminal, and it is also possible to quickly find a construction-compatible closure, which reduces management work time and facilitates work suitable for field work. It is possible to provide a closure for switching optical cable connection, which can be carried out in an excellent manner and has excellent workability.

Further, according to the present invention, the connection tray provided in the optical cable connection switching closure supports the core wire lead-in / out portion for leading in / out the optical cable core wire and the core wire to be inserted from the core wire lead-in / out portion. And a connector accommodating portion for accommodating a connector that connects the core wires to each other, and an extra core wire length accommodating portion for winding and accommodating an extra core wire length. A connecting tray is rotatably connected by a hinge portion, and the tray for holding core wire and the tray for pulling through core wire are stacked and arranged in the center of the sleeve, and the connecting tray is provided on both sides thereof. By installing the adapter holding member above the tray for holding core wire and the tray for pulling through core wire, connection wiring work can be easily performed and workability is excellent, and connection function and switching for each core wire are provided. Functions and integration It is possible to, the housing and increase or decrease of each core wire easily upgradable nor easy, convenient handling can be accommodated a connection to the very compact,
Can be a reliable optical cable connection switching closure.

Further, according to the present invention, in the optical cable connection closure, the adapter holding member provided in the optical cable connection switching closure is rotatably connected to the support portion by the hinge portion, and the retaining core wire in the sleeve. With the configuration that the tray for drawing and the tray for pulling through the core can be opened, the connection and switching of the optical cable, the branch connection work and the recollection work can be easily performed, and the core has a high-density storage structure with multiple layers. In addition to storing and organizing each core, it is easy to increase or decrease each core wire and it is easy to add more, and since the connection part can be stored safely in a very compact manner, it can be stored by opening any storage tray after connecting the core wires. The optical fiber core that is being used can be quickly taken out, the core can be easily identified, and the readjustment and repair of the connection part can be easily performed, greatly improving the workability. It is possible to perform reliable switching / wiring construction, improve the reliability of wiring management work, and easily read from the outside of the closure for wiring identification, and it is also possible to quickly find a construction-compatible closure. Therefore, it is possible to reduce the management work time, perform the work suitable for the field work easily, have excellent workability, and store the connection part in an extremely compact manner. Provided by.

[Brief description of drawings]

FIG. 1 is a plan view showing an inside of an embodiment of the present invention in a use state, with an upper sleeve removed.

FIG. 2 is a vertical cross-sectional view of the optical cable connection switching closure of the example of FIG.

3 is a vertical cross-sectional view taken along the line AA in FIG.

FIG. 4 is a wiring diagram showing a use state of the optical cable connection switching closure of the example of FIG. a trunk cable b pull-up cable 1 closure 2 cable grip 3 connection tray 4 holding core wire tray 5 pull-through core wire tray 6 sleeve 7 times line identification chip 8 adapter 9 adapter holding section 10 core wire lead-in / out section 11 cores Wire holder 12 Connector housing 13 Extra core length housing 14 Hinge 15 Flat plate 16 Hinge 17 Support member 20 Hinge fastener 21 Tension member gripping tool 22 Cable gripping tool 23 Tension member gripping tool 24 Frame 25 Mounting base

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yoshihisa Oshima             4-35-3 Yoyogi, Shibuya-ku, Tokyo Co., Ltd.             Within Japan Recom F-term (reference) 2H038 AA21 CA37                 5G355 AA10 BA01 BA11                 5G375 AA18 CA02 CA19 CC02 DB16                       DB23 EA04 EA17

Claims (5)

[Claims] 1. A connection tray for inserting and receiving an optical fiber cable, and an optical cable connection switching closure for arranging a holding fiber tray and a pull-through fiber tray in a sleeve. An optical cable connection switching closure characterized in that a line path identification chip consisting of a two-dimensional code or RFID element in which a line data of a line is digitized and displayed in a pattern is arranged in a sleeve. 2. The optical cable connection switching closure according to claim 1, wherein the line identification chip comprehensively manages optical line management information, records data distribution, storage, and update work. A readable / writable optical fiber connection switching device, characterized in that a line identification chip composed of a two-dimensional code or an RFID element is provided in the adapter holding member at a position corresponding to the adapter of the core of each line. closure. 3. The optical cable connection switching closure according to claim 1 or 2, wherein the connection tray includes a core wire lead-in / out portion for leading in and out an optical cable core wire, and a core wire entering from the core wire lead-in / out portion. A plurality of connection trays are provided, each of which is provided with a cable gripping portion that supports the connector, a connector housing portion that houses a connector that connects the core wires to each other, and a core wire extra length housing portion that winds and stores the extra core wire length. An optical cable connection switching closure characterized in that the connection trays are stacked and connected to each other so as to be rotatable by a hinge portion. 4. The optical cable connection switching closure according to claim 2 or 3, wherein the tray for the holding core wire and the tray for the pulling-through core wire are stacked in the center of the sleeve and arranged on both sides thereof. An optical cable connection switching closure characterized in that the connection tray is provided and an adapter holding member is arranged above the tray for holding core wire and the tray for pulling through core wire. 5. The optical cable connection switching closure according to claim 2, 3, or 4, wherein the adapter holding member is rotatably connected to a support portion by a hinge portion, and the retaining core in the sleeve. An optical cable connection switching closure characterized in that the tray for wire and the tray for core wire can be opened.