JP2940727B2 - Optical wiring switching device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical wiring switching device for switching the connection of an optical path between two optical fiber groups.

[0002]

2. Description of the Related Art FIG. 5 shows, for example, Japanese Patent Application No. 2-87534.
FIG. 1 is a diagram schematically showing a conventional multi-core matrix optical fiber switch as seen in FIG. Figure 5 each is a terminal formed by the ferrule 41 _1, 41 _{2, 1} two optical fiber group 42 disposed so as to each other end confront each other, and 42 _2, the two optical fiber group 4
2 _1, 42 of the _two, and one of the optical fiber group 42 ₁ of the ferrule ₄₁₁ are moved in the row direction of the matrix one ferrule positioning mechanism for positioning any of the butted portion (not shown), facing the multi-core matrix optical fiber switch that other ferrule 41 _{and second} optical fiber group 42 ₂ provided with the other ferrule positioning mechanism (not shown) for positioning any butt portion is moved in the column direction of said matrix to Is shown.

[0003]

In FIG. 5, when a multi-core matrix optical fiber switch is configured in a crossbar arrangement, there are the following disadvantages. (1) When the connection is switched, each optical fiber is processed by extra length and aligned, and the bending radius is kept at a certain value or more to guarantee bending loss and life, and each ferrule moving mechanism (including a driving mechanism) is used. It is necessary to secure a moving space. That is,
Along with the movement of the ferrules 41 ₁ and 41 _2, the bending radius is reduced due to the crossing of optical fibers (entanglement of optical fibers) and excessive tension is generated, and the optical fiber and each ferrule moving mechanism (including a driving mechanism) are generated. In order to avoid the cutting of the optical fibers due to the entanglement of the optical fibers, it is indispensable to process the extra length of the optical fibers by using a partition plate between the optical fibers or an optical fiber feeding / retracting mechanism for each optical fiber. Such extra length processing sections are required on both sides of the ferrule butting section, which is disadvantageous. (2) the ferrule 41 _1, 41 ₂ between small pitch (e.g., 1 mm) if to be smaller density, the ferrule 41 _1, 41 _2, etc. In addition to the miniaturization of the connection parts, and extra length handling unit, each pitch In addition, miniaturization of the entire ferrule moving mechanism component is indispensable, and machining of the component becomes difficult. (3) Since the optical fiber extra length processing section and the ferrule moving mechanism section are provided along each row and each column, the connecting section is inaccessible and repair / maintenance is extremely difficult.

SUMMARY OF THE INVENTION An object of the present invention is to provide a small-sized optical wiring switching device which can be coupled with low loss, can be easily repaired and maintained, in view of the above problems.

[0005]

According to the optical wiring switching device of the present invention, each optical fiber is terminated by a connector plug comprising a ferrule and a connector part, and the connector plugs are connected so that the ferrule axis is substantially in the direction of gravity. Out of the two optical fiber groups connected to each other, the position of the connector plug of the first optical fiber group is fixed, and the position of the connector plug of the second optical fiber group is moved, so that the connector of the two optical fiber groups is moved. An optical wiring switching device for switching connection between plugs, comprising a plurality of holes for fixing and mounting a connector plug of an upper first optical fiber group, which is installed substantially horizontally, and a lower second connector. A connector plug of the connector plug of the optical fiber group that has been disconnected from the connector plug of the first optical fiber group is commonly used with the connector plug. Holes for mounting the dummy connector plug are formed in a row to temporarily couple with the dummy connector plug to be connected, and the connector plug of the first optical fiber group and the dummy connector are mounted in the hole. A connection part holding plate, and a lower part in the height direction with respect to the connection part holding plate, and installed substantially horizontally, and each optical fiber emitted from the second optical fiber group is connected to a connector plug of the connection part holding plate. An optical fiber fixture for arranging the connector plugs at the ends of these optical fibers in the vertical direction while fixing the horizontal position thereof, and arranging the optical fiber fixture with the optical fiber fixture. An optical fiber comprising: a plurality of partitioning members for partitioning between the optical fibers provided in the alignment direction; and a partitioning member supporting member for detachably supporting both ends of each partitioning member. An end partition mechanism and two end portions of two partition members on both sides of an optical fiber that is terminally formed by a connector plug to be replaced in the second optical fiber group, and a gap between the two partition members. And a moving mechanism for moving the partitioning tool gripping mechanism between the optical fiber partitioning mechanism and the vicinity of the connecting portion holding plate.
A moving mechanism, a connector plug gripper for gripping a connector plug for reconnecting the second optical fiber group, and gripping the connector plug by operating the connector plug gripper; A connector insertion / removal mechanism for releasing the connected state of the connector plug and connecting the held connector plug to the dummy connector plug or the connector plug of the first optical fiber group, a connector plug for reconnecting the connector plug holding tool, and A connector transport / insertion mechanism comprising a transport mechanism for transporting the connector to the dummy connector plug; and first and second connection portions for switching optical wiring of a connection portion between the first and second optical fiber groups. Of these, first, the second connecting portion should be selected, and the partitioning member holding / moving mechanism should be driven to change the connection of the second optical fiber group. Grasping the two partition members located on both sides of the fiber is moved to the vicinity of the connecting portion holding plate,
Increase the distance between the two dividers and change the second connection
The optical fiber group is divided into two, the operation space of the connector plug gripper of the connector transport / insertion / extraction mechanism is secured, and then the connector transport / insertion / extraction mechanism is driven to change the connection of the second optical fiber group. The connector plug of the second connection portion is gripped by the connector plug gripper, pulled out from the connector plug of the first optical fiber group to release the coupling state, and is transported to the dummy connector plug to be transferred to the dummy connector plug. Temporarily join, then grip the partitioning tool
By driving the moving mechanism, the two partitioning tools are returned to their original positions, and this time, the first connecting part is selected, and the partitioning tool gripping /
The moving mechanism is driven to secure the operation space of the connector plug gripper of the connector transport / insertion / extraction mechanism in the same manner as before, and then the connector transport / insertion / extraction mechanism is driven to the second position.
The connector of the second connection part of the first optical fiber group, which is attached to the connection part holding plate in the same manner as before, with the connector plug of the first connection part of the optical fiber group to be replaced. Coupled to the plug, and then driving the divider gripping / moving mechanism to return the two dividers to their original positions, and finally, provisionally coupled to the dummy connector plug exactly as before. A first plug of a first optical fiber group attached to the connection portion holding plate;
A control device to be coupled to the connector plug of the connection portion, wherein the connector plug of the second optical fiber group is attached to the connection portion holding plate in the order in which the optical fibers are initially arranged by the optical fiber fixing device. The first optical fiber group.

[0006]

The connector plug of the second optical fiber group to be replaced is transported in a space where the optical fibers are initially arranged in the optical fiber fixing device in the same order as the optical fibers, so that wrapping around other optical fibers occurs. do not do. Further, since the direction in which the optical fibers of the second optical fiber group to be reconnected from the optical cable to be reconnected are arranged in a row and the direction in which the connector plug is conveyed in connection with the reconnection are in a twisted positional relationship, the During the movement, no twist occurs in the optical fiber to be reconnected, and the optical fibers of the optical fiber group to be reconnected smoothly move along the partition without being wound around the partition. This eliminates the need for a special component or mechanism for extra length processing for each optical fiber. Also,
Since the connection portions arranged in a row are accessible, repair and holding are easy.

For example, in the case of a 500 × 500 complete group optical wiring switching device, the connector plug arrangement pitch is 3 mm.
If it is designed as a two-row arrangement, the outer dimensions are 800 (width) x 600 (height) x 600, excluding the connector transport / insertion and removal mechanism.
(Rear) mm. As for the performance of the optical wiring switching device, excellent transmission characteristics such as an insertion loss of 0.5 dB or less can be obtained similarly to a normal optical connector.

[0008]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows an optical wiring switching device according to an embodiment of the present invention.
FIG. 2 shows a connector plug 3 ₁And 3_TwoThe binding state of
FIG. 3 is a cross-sectional view, and FIG.
A schematic explanation that no wrapping occurs between fibers
FIG. 4 shows the slide by two partitioning tools 19.
Secure the working space for the rod 25 and the connector plug gripper 28
FIG.

[0010] optical connection switching apparatus of this embodiment is a terminal formed in the connector plug 3 _1, 3 _2, respectively, the optical fiber 2 ₁ that are coupled together by the connector plug together as the ferrule axis is the direction of gravity, the optical fiber among optical fiber group 1 ₁ consisting of 2 ₂ 1 _2, the optical fiber group is above 1
The connector plug position is fixed, by moving the connector plug position of the optical fiber group 1 ₂ at the bottom, 1 two optical fiber group ₁ and 1 ₂ of the connector plug 3 _1, 3 the connection switching of the wiring between the ₂ The optical fiber fixture 5,
6, connection part holding plate 8, and optical fiber partition mechanism 18
, A partitioning tool gripping / moving mechanism 21, a connector plug transport / insertion / extraction mechanism 24, and a control device 34.

[0011] the optical fiber group 1 _1, the cable 4 ₁ each optical fiber 2 ₁ issued from fixed with adhesive or the like on a plate-shaped optical fiber fixing tool 5, the direction of gravity in the connector plug 3 ₁ is distance It has been lowered to. On the other hand, optical fiber group 1
_2, the cable 4 ₂ the optical fibers 2 ₂ issued from is launched through a hole 7 bored in the horizontally disposed rod-shaped fixed intervals of the optical fiber fixing tool 6 in the opposite direction to gravity . The connecting portion holding plate 8 is provided between the optical fiber fixture 5 and the optical fiber fixture 6 in the height direction so as to be horizontal and orthogonal to the optical fiber fixture 6 when viewed from above. a number of holes (through holes) 9 ₁ for fixedly attaching the _first connector plug 3 _1, the optical fiber group 1 _2,
Connector plug 3 ₁ connector plug 3 ₁ which is uncoupled and is temporarily coupled, holes (through holes) for mounting a dummy connector plug 3 ₃ used in common with the connector plug 3 ₂ 9 ₂ (e.g. 50 provided one for each connection portion) are provided in two rows in a staggered manner, the connector plug 3 ₂ of the optical fiber group 1 _2, initially, in the order of arranging the optical fiber 2 ₂ optical fiber fixing tool 6, the connecting portion is attached to the holding plate 8, it is mounted in combination with the connector plug 3 ₁ of the optical fiber group 1 _1. Here, the optical fiber length of the optical fiber group 1 _2, the connector plug 3 ₂ connecting portion holding plate 8
At both ends of the connector plug 3 ₁ and can bind, and an optical fiber bend radius is predetermined value (e.g., 20MmR) has a length that a margin of time becomes less, and carrying a connector plug 3 _2.

[0012] Connector plug 3 ₁ and 3 ₂ are connected to each other as shown in FIG. Upper connector plug 3
_1, the optical fiber 2 ₁ terminal formed in the ferrule 10 _1,
The split sleeve 11 for aligning the axis of the ferrule 10 ₁ and 10 ₂ adhesively attached to the ferrule 10 _1, the ferrule 10 _1, the ferrule receiving device 13 ₁ with Tsumemizo 12 to the outside, through the spring 14 ferrule 10 ₁ can move in the axial direction and the direction orthogonal thereto (for example, 0.3 mm
Before and after). On the other hand, the connector plug 3 ₂ The lower the optical fiber 2 ₂ terminal formed in the ferrule 10 _2, the ferrule 10 ₂ has a claw 14 to the outside, and a ferrule receiving device having a gripping groove 15 to be gripped from the outside 13 ₂ , the ferrule 10 ₂ is configured to be able to move in the axial direction and the direction orthogonal thereto (for example, about 0.3 mm). The butting force (for example, several hundred g) between the ferrules 10 ₁ and 10 ₂ is obtained by the force of the spring 14. Further, the optical fiber 2 ₂ are on the outside of the ferrule accommodation tool 13 ₂ are made is covered is straight sleeve 16 having flexibility, such as plastic.
An optical fiber 2 having a flexible sleeve 17 made of plastic or the like fixed with an optical fiber fixture 6.
Covered with _two .

[0013] optical fiber partition mechanism 18, between the optical fiber 2 ₂ was launched in the optical fiber fixing tool 6, holes 9 ₁ and 9 ₂ alignment direction on the connecting portion holding plate 8, i.e. in the y-direction It comprises a plurality of partitioning tools 19 for partitioning, and a partitioning tool support member 20 for detachably supporting both ends of the partitioning tool 19.

[0014] The partition member gripping-moving mechanism 21, the two partition members that the connector plug 3 ₂ to be connected replacement of the optical fiber group 1 ₂ in the terminal forming optical fiber 2 ₂ on both sides 18
, And a motor, a gear, etc., and the partitioning tool holding mechanism 22 is moved to the vicinity of the connecting portion holding plate 8 in the x direction and z. And a moving mechanism 23 for moving in the direction.

The connector plug transport / insertion / extraction mechanism 24 includes a slide bar 25 having a rack formed on a side surface, a motor 26 for engaging the rack of the slide bar 25 with an output gear, and the like, a slide mechanism 25 in the y direction, and a slide mechanism. A connector plug gripper 28, which is attached upward to the tip of the rod 25 and whose tip is normally open by elastic force, an operation wire 29 having one end fixed to the connector plug gripper 28, and the other end of the operation wire 29 A wire gripper 30 for gripping, a solenoid 31 for pulling the operating wire 29 in the y-direction when closing the distal end of the connector plug gripper 28, and a z-direction moving mechanism for moving the y-direction moving mechanism 27 in the z-direction. 3
2 and an x-direction moving mechanism 33 for moving the y-direction and z-direction moving mechanisms 27 and 32 in the x-direction.

The control device 34 includes a partitioning tool gripping / moving mechanism 2
1 and the connector plug transport / insertion / extraction mechanism 24 are controlled.

Next, the operation of this embodiment will be described with reference to the optical fiber group 1.
₁ and of the connection between 1 _2, the case of performing optical wiring switching of connections A and B. (1) First, the connection unit B is selected by the control device 34,
Partition tool gripping-moving mechanism 21 is driven, the partition member gripping mechanism 22 grips both ends of the two partition members 19 on the connection re to be optical fiber 2 ₂ on both sides, near the connecting portion holding plate 8 to move, to expand the distance between the two partition members 19, and bisects the optical fiber group 1 ₂ should re of the lower connection, the slide bar 2 of the connector plug carrying and inserting and removing mechanism 24
5 and the operation space for the connector plug gripper 28 are secured.
The broken line in FIG. 3 shows the movement of the partitioning device 19 at this time. (2) Next, the connector plug transport / insertion / extraction mechanism 24 is driven by the control device 34 with the operation space secured. First, the moving mechanism 27 in the y-direction is driven, the connector plug gripper 28 sliding rod 25 is moved, is positioned just below the connection part optical fiber 2 _second connector plug 3 ₂ to be connected replacement of B. Next, by energizing the solenoid 31 and pulling the operation wire 29 in the y direction, the distal end portion of the connector plug gripper 28 is opened. In this state, after slightly increased the connector plug gripper 28 by the movement mechanism 32 in the z direction and to release the energization of the solenoid 31, the connector plug gripper 28 is fitted to the connector plug 3 ₂ gripping groove 15 round . In this state, when the z-direction moving mechanism 32 is driven downward, the connector plug 3
₂ claw 14 is connector plug 3 ₁ Tsumemizo 12 connector plug 3 ₂ off the moves in the z-direction downward, so that the coupling state between the connector plug 3 ₁ connector plug 3 ₂ is released. (3) Next, the coupling connector plug 3 ₂ is released y
After being transported by the movement mechanism 27 in the direction up to the dummy connector plugs 3 _3, is raised by the moving mechanism 32 in the z-direction, if coupled to the dummy connector plug 3 _3. (4) Next, the partitioning tool gripping / moving mechanism 21 is driven, and the two partitioning tools 19 are returned to their original positions. (5) Next, the connecting part A is selected, and the partitioning tool gripping / moving mechanism 21 is driven, and the operation space of the slide bar 25 and the connector plug gripping tool 28 is secured in the same manner as (1). (6) Next, the connector transport / insertion / extraction mechanism 24 is driven,
The optical fiber 2 _second connector plug 3 ₂ to be connected re connecting portion A (2), in the same manner as in (3), connecting and retaining plate 8
It is attached to the connecting portion is coupled to the connector plug 3 ₁ of the optical fiber 2 ₁ B. (7) Next, the two partitioning tools 19 are returned to their original positions in the same manner as in (4). (8) Hereinafter, the dummy connector plug 3
₃ has been tentatively bond connecting part connector plug 3 ₂ to be connected replacement of B is attached to the connecting portion holding plate 8 is coupled to the connecting part connector plug 3 ₁ of the optical fiber 2 ₁ A .

[0018] In the above connector connection re operation, in the case of insertion and carries the connector plug 3 ₂ since the sleeve 16 provided in the connector plug 3 _2, Should connector plug grippers 28 and another sleeve 16 contacts Even
Alternatively, also when the distance between the two partitioning members 19 is increased to divide the optical fiber group 12 to be replaced into _two , the bending radius of the optical fiber in the sleeve 16 is a predetermined value (for example,
20 mm) or more. Further, when the optical fiber 2 ₂ to be connected re moves along the partition member 19, the bending radius of the optical fiber in the sleeve 16 is maintained above a predetermined value. In addition, since the connecting portions holding plate 8 is provided with holes 9 ₁ and 9 ₂ in a staggered manner and the connecting portions are arranged in a staggered manner,
Per connection re, easier to grip the connector plug 3 ₂ the connector plug gripper 28, the connector plug 3 _1,
3 ₂ can densely arranged. Furthermore, strikes the optical fiber 2 ₂ connection re, the optical fiber 2 ₂ a connector plug 3 ₂ which terminals formed along between the two partition members 19 on the both sides, i.e., initially in the optical fiber fixing tool 6 since moving without changing the order by arranging the optical fiber 2 _2, during the movement of the optical fiber 2 _2, to twist the optical fiber 2 ₂ itself to be connected replacement does not occur, also, the optical fiber 2 ₂ and other the winding of the optical fiber 2 ₂ does not occur.

In the above description, the connector structure shown in FIG. 2 has been described. For example,
As a connector, a document "E. Sugita, SC-Ty"
peSingle-Mode Optical Fiber
er Connectors, J. et al. Lightwave
Technology. Vol. 7. No. 11.1
989, p. 1691, FIG. Conventional push-pull connectors, such as those found in 3 ", can also be used.

The connector plug transport / insertion / extraction mechanism 24
And the partitioning device gripping / moving mechanism 21 and the control device 34
Explained the case of exclusive use with only the optical wiring switching device
However, it may be shared between a plurality of optical wiring switching devices. Also,
Although the partitioning tool 19 has been described as a thread-like one, a thin plate-like one is also used.
May be. Optical fiber 2₁, 2_TwoAs explained in
Plastic coated optical fiber core and even Kevlar
May be used. Also connector plug
3_TwoOf the connection part holding plate 8 due to the insertion / removal reaction force
It is possible that you will be warped. On the other hand, the connection part holding plate 8
Optical fiber 2 ₁Rigid along the connection holding plate 8 on the side
A giving member may be attached.

[0021]

As described above, according to the present invention, the position of the connector plug of one optical fiber group is fixed, and the optical fibers of the other optical fiber group are moved in the direction orthogonal to the alignment direction of the connector plugs. By sequentially arranging them in the anti-gravity direction and connecting the connector plug to the connector plug of one optical fiber group, moving the connector plug of the other optical fiber group, and switching the connection of the optical path, The effect is as follows. (1) Special components and mechanisms are not required for each optical fiber because of the extra processing of the optical fiber. (2) No matter how many times connection switching is performed, winding of the optical fibers and entanglement between the optical fibers and the switching drive unit do not occur with the switching of the optical fibers. Thus, the bending radius of the optical fiber is maintained at a predetermined value or more, the connection can be performed with low loss, and the optical fiber is not cut because excessive tension is not applied. (3) Further, the movement of the optical fiber due to the connection change is only the optical fiber of the optical fiber group on one side, and the outer dimensions of the optical fiber switch can be reduced. (4) Also, since the connecting portions are arranged in a row and the optical fibers hang down in the direction of gravity, and the connecting portions are accessible, repair and maintenance are easy. (5) Further, the connection portion is a normal connector connection, and a stable transmission characteristic with low loss can be obtained, and a practical optical wiring switching device can be configured. For example, it is effective when applied to an optical MDF.

[Brief description of the drawings]

FIG. 1 is a perspective view of an optical wiring switching device according to an embodiment of the present invention.

2 is a sectional view showing a coupling state of the connector plug 3 ₁ and 3 _2.

FIG. 3 is a diagram schematically illustrating that no wrapping occurs between optical fibers due to replacement of a connector plug.

FIG. 4 is a view for explaining a situation in which an operation space for a slide bar 25 and a connector plug gripping tool 28 is secured by two partitioning tools 19;

FIG. 5 is a diagram schematically showing a conventional multicore matrix optical fiber switch.

[Explanation of symbols]

1 ₁ First (upper) optical fiber group 1 ₂ Second (lower) optical fiber group 2 ₁ Optical fiber of first optical fiber group 2 ₂ Optical fiber of second optical fiber group 3 ₁ Light fiber 2 ₁ connector plug 3 ₂ optical fiber 2 _second connector plug 3 ₃ dummy connector plug 4 ₁ first optical fiber group 1 ₁ of the cable 4 ₂ second optical fiber group 1 ₂ cable 5,6 optical fiber fixing ingredients 7 holes 10 _1, 10 ₂ ferrule 11 the split sleeve 12 Tsumemizo 13 ₁ for hole 9 ₂ dummy connector plugs 3 ₃ for the hole 8 connecting portion holding plate 9 ₁ connector plug 3 ₁ of the optical fiber fixing tool 6, 13 ₂ Ferrule storage device 14 Claw 15 Grip groove 16, 17 Sleeve 18 Optical fiber partition mechanism 19 Partition tool 20 Partition tool support member 21 Partition tool grip / movement mechanism 22 Partition tool grip mechanism 23 Moving mechanism 24 Connector Plug Carrying / Unplugging Mechanism 25 Slide Rod 26 Motor 27 Moving Mechanism in y-direction 28 Connector Plug Grasping Tool 29 Operating Wire 30 Wire Grasping Tool 31 Solenoid 32 Moving Mechanism in z-direction 33 Moving Mechanism in x-direction 34 Controller

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hideo Kobayashi 1-6-1, Uchisaiwaicho, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Masatoshi Shimizu 1-1-6, Uchisaiwaicho, Chiyoda-ku, Tokyo Japan Telegraph and Telephone Co., Ltd. (58) Field surveyed (Int.Cl. ⁶ , DB name) G02B 26/08 G02B 6/36 G02B 6/40

Claims (1)

(57) [Claims] 1. An optical fiber group comprising two optical fibers, wherein each optical fiber is terminated by a connector plug comprising a ferrule and a connector part, and the connector plugs are connected to each other so that the ferrule axis is substantially in the direction of gravity. An optical wiring switch for fixing a position of a connector plug of a first optical fiber group, moving a position of a connector plug of a second optical fiber group, and switching connection of an optical path between connector plugs of two optical fiber groups; An apparatus, comprising: a plurality of holes for fixing and attaching a connector plug of an upper first optical fiber group; a first hole of a connector plug of a lower second optical fiber group; Temporarily disengage the connector plug of the optical fiber group with the connector plug of the optical fiber group into a dummy connector plug commonly used with the connector plug. Holes for mounting the dummy connector plug are formed in a row, and a connector holding plate in which the first optical fiber group has a connector plug and the dummy connector plug is mounted in the hole. The optical fiber output from the second optical fiber group is disposed vertically downward in the height direction with respect to the connection part holding plate, and orthogonally intersects the alignment direction of the connector plugs of the connection part holding plate. And an optical fiber fixing device for fixing the horizontal position thereof and elevating the connector plug at the tip of these optical fibers in the vertical direction, and for each of the optical fibers raised by the optical fiber fixing device. An optical fiber partitioning mechanism including a plurality of partitioning tools for partitioning the space in the alignment direction, and a partitioning tool support member for detachably supporting both ends of each partitioning tool; An optical fiber group, a gripper gripping mechanism for gripping both ends of the two partitioning tools on both sides of the optical fiber that is terminally formed with the connector plug to be reconnected, and extending the interval between the two partitioning tools, A partitioning tool gripping / moving mechanism comprising a moving mechanism for moving the partitioning tool gripping mechanism between the optical fiber partitioning mechanism and the vicinity of the connecting portion holding plate; and a connector plug for changing connection of a second optical fiber group. And a connector plug gripper for gripping the connector plug, operating the connector plug gripper to grip the connector plug, and then moving the connector plug to release the connected state of the connector plug. Alternatively, a connector insertion / extraction mechanism for coupling to the connector plug of the first optical fiber group, and a connector plug for changing the connector plug holder. A connector plug transport / insertion / extraction mechanism comprising a lug and a transport mechanism for transporting the connector to the dummy connector plug; and first and second switches for switching an optical wiring of a connection portion of the first and second optical fiber groups. Out of the connecting portions, first, the second connecting portion is selected, and the partitioning tool holding / moving mechanism is driven to remove the two partitioning tools on both sides of the optical fiber to be reconnected in the second optical fiber group. Grip, move to the vicinity of the connection part holding plate, expand the distance between the two partitioning tools,
The second optical fiber group to be reconnected is bisected, the operation space of the connector plug gripper of the connector plug transport / insertion mechanism is secured, and then the connector plug transport / insertion mechanism is driven, The connector plug of the second connection portion of the optical fiber group to be reconnected is gripped by the connector plug gripping tool, pulled out of the connector plug of the first optical fiber group to release the connection state, and is connected to the dummy connector plug. Transported to the dummy connector plug and tentatively coupled to the dummy connector plug, and then drive the partitioning tool gripping / moving mechanism to return the two partitioning tools to their original positions, this time selecting the first connecting portion, By driving the partitioning tool gripping / moving mechanism, the operation space of the connector plug gripping tool of the connector transporting / pulling-out mechanism is secured in the same manner as before, and then the connector plug transporting / pulling-out is performed. Driving the structure, the first connector plug of the connecting portion to be connected replacement of the second optical fiber group, before and in the same manner, is attached to the connecting portion holding plate. The first optical fiber group is coupled with the connector plug at the second connection part, and then the partitioning tool gripping / moving mechanism is driven to return the two partitioning tools to their original positions. Similarly, a control device for connecting the connector plug temporarily connected to the dummy connector plug to the connector plug of the first connection portion of the first optical fiber group attached to the connection portion holding plate, And a connector plug of the first group of optical fibers, which is attached to the connecting portion holding plate in the order in which the optical fibers are initially arranged by the optical fiber fixing device. An optical wiring switching device that is attached and attached.