JP5264633B2 - Optical termination box - Google Patents

Description

  The present invention relates to an optical termination box for connecting an input-side optical line to an output-side line.

With the spread of optical communication networks, optical termination boxes are installed in buildings such as buildings and houses, and optical connection points between optical fiber cables introduced from outdoors and indoor optical lines (indoor cables, etc.) It is carried out in the end box (see, for example, Patent Documents 1 to 4).
In recent years, in the construction of an optical communication network using a PON (Passive Optical Network), an optical line is branched by an optical splitter.

Japanese Patent No. 3908188 Japanese Patent Laid-Open No. 2008-9094 JP 2007-293136 A JP 2006-145582 A

However, the conventional optical termination box has been unsatisfactory in that it is difficult to carry out the operation of the internal optical fiber when it is necessary to change the wiring form due to the increase or decrease in the number of lines.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an optical termination box capable of improving workability in an internal optical fiber connection operation or the like.

The invention according to claim 1 of the present invention is an optical termination box for branching an input-side optical line and connecting to a plurality of output-side optical lines. A partition wall that is separated from the secondary side space is provided, an input side optical line and an output side optical line can be introduced into the primary side space, an optical distributor and an optical connector holding part are provided in the secondary side space, and the partition wall In addition, an input side and an output side optical connector are provided, and a primary side optical fiber connected to the input side optical line can be connected to a secondary side optical fiber via the input side optical connector, and the optical distributor is The secondary-side optical fiber can be branched into a plurality of branch-side optical fibers, and the output-side optical connector is connected to the branch-side optical connector at the tip of the branch-side optical fiber, so that the branch-side optical fiber is An output side optical fiber connected to the output side optical line. Can be connected to the driver, the optical connector holding portion, said Ri output side optical connector holdable der an unconnected branched side optical connector, wherein the input-side optical connector, wherein the primary optical fiber wherein The secondary side optical fiber can be connected from the secondary side space, and the branch side optical fiber can be connected to the output side optical connector from the secondary side space. The output side optical fiber is connectable from the primary side space, and the housing has a primary side door part for opening and closing the primary side space and a secondary side door part for opening and closing the secondary side space. The optical connector holding portion is provided on the inner surface of the secondary side door portion, and the housing includes a connection portion between the input side optical line and the primary side optical fiber, and the output side line. Stores output side optical fiber connection Functional optical fiber connection tray is provided, and the optical fiber connection tray is attached to the inner surface of the primary side door portion, and is attached to the casing at a hinge portion provided on one side edge so as to be rotatable. it is not that an optical termination box.
The invention according to claim 2 of the present invention, Oite to claim 1, wherein the branched side optical fiber is a optical termination box made of optical fiber cord.
The invention according to claim 3 of the present invention is the light according to claim 1 or 2 , wherein the partition wall separates the inside of the housing into a primary side space on one side and a secondary side space on the other side. It is a termination box.
The invention according to claim 4 of the present invention is the optical termination according to any one of claims 1 to 3 , wherein the partition wall secures the primary side space behind the secondary side space. It is a box.

According to the present invention, work such as wiring change can be performed only in the secondary side space partitioned by the partition wall, so that the optical fiber can be easily handled and the work is easy.
Further, since the operator does not accidentally touch the optical fiber in the primary side space, the work can be performed without adversely affecting the wiring in the primary side space.
Further, the number of input side optical fibers constituting the line may be the number obtained by dividing the number of output side optical fibers by the number of branches in the optical distributor, and therefore the number of input side fibers can be reduced.

It is a schematic diagram which shows the structure and optical wiring of the optical termination box which are the 1st Embodiment of this invention. It is a perspective view which shows the external appearance of an optical termination box. It is a perspective view which shows a partition wall and an optical connector adapter. It is a perspective view which shows an optical distributor and an optical connector storage part. It is a perspective view which shows an optical fiber connection tray. It is a perspective view which shows the external appearance of the optical termination box which is the 2nd Embodiment of this invention. It is a perspective view which shows the external appearance of the optical termination box which is the 3rd Embodiment of this invention. It is a perspective view which shows a 1st division wall and an optical connector adapter. It is a perspective view which shows an optical fiber connection tray. It is a perspective view which shows an optical distributor. It is a perspective view which shows an optical connector holding | maintenance part. It is a schematic diagram which shows the example of application of the optical termination box of this invention.

The optical termination box 1 according to the first embodiment of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic diagram showing the structure of the optical termination box 1 and the optical wiring. FIG. 2 is a perspective view showing the appearance of the optical termination box 1. FIG. 3 is a perspective view showing the partition wall 3 and the optical connector adapter 4. FIG. 4 is a perspective view showing the optical distributor 5 and the optical connector holding unit 6. FIG. 5 is a perspective view showing the optical fiber connection tray 7.
In the following description, the front side of each drawing is referred to as the front side, and the back side is referred to as the back side.

The optical termination box 1 branches an input side optical line and connects it to a plurality of output side optical lines.
As shown in FIG. 1, the optical termination box 1 is provided with a partition wall 3 that divides the interior of the housing 2 into a primary side space 31 and a secondary side space 32, and a plurality of partition walls 3 are provided. An optical connector adapter 4 (optical connector) is provided.

As shown in FIG. 2, the housing 2 includes a housing body 11, an outer door portion 14 that opens and closes the front opening 11 a of the housing body 11, and a primary space 31 and an inner surface side of the outer door portion 14, respectively. A pair of door portions 12 and 13 for opening and closing the secondary side space 32 are provided.
The housing body 11 includes side walls 11c and 11c provided on both side edges of a substantially rectangular bottom wall 11b, a rear wall 11d provided on a rear edge of the bottom wall 11b, and a top wall 11e.

As shown in FIG. 2, the input-side optical cable fixing portion 18 that fixes the terminal of the input-side optical cable 20 and the output-side optical cable that fixes the terminal of the output-side optical cable 26 are attached to the lower inner surface of the rear wall 11 d in the primary-side space 31. A fixing portion 19 is provided.
The terminal of the input side optical cable 20 introduced into the primary side space 31 from the input side introduction port 16 formed in the bottom wall 11b can be fixed to the input side optical cable fixing portion 18 using a fixture such as an insulation lock tie.
The terminal of the output side optical cable 26 introduced into the primary side space 31 from the output side introduction port 17 formed in the bottom wall 11b can be fixed to the output side optical cable fixing part 19 using a fixture such as an insulation lock tie.

The primary side door portion 12 is sized so as to cover the primary side space 31 so as to be freely opened and closed. The hinge 12b provided on the side edge 12a has one side wall 11c (the side wall 11c on the primary side space 31 side). It is pivotally attached.
The secondary side door portion 13 is sized to cover the secondary side space 32 so as to be freely opened and closed, and the other side wall 11c (side wall on the secondary side space 32 side) of the hinge 13b provided on the side edge 13a. 11c) is pivotally attached.
The outer door portion 14 is rotatably attached to the other side wall 11c.

As shown in FIGS. 1 to 3, the partition wall 3 is provided substantially perpendicular to the rear wall 11d, the bottom wall 11b, and the top wall 11e on the upper surface of the inner surface of the rear wall 11d.
The partition wall 3 in the illustrated example has a substantially central position in the width direction (left-right direction in FIGS. 1 to 3), but the position in the width direction of the partition wall 3 is not limited to this, and is closer to any side. It may be the position.
As shown in FIG. 2, the primary side space 31 is the left half (one side space) of the internal space of the housing 2 partitioned by the partition wall 3 and a plane extending from the partition wall 3. It is the right half (the other side space) of the body 2 internal space.

As shown in FIG. 3, the optical connector adapter 4 connects optical connectors inserted from the connector insertion ports 4a on both sides, and the connector insertion ports 4a on both sides are provided on one side and the other side of the partition wall 3. It is open.
Although the arrangement | sequence of the some optical connector adapter 4 is not specifically limited, As shown to FIG. 2 and FIG. 3, the row | line | column along the depth direction of the partition wall 3 can be provided in multiple steps up and down.

As shown in FIGS. 1, 2, and 4, an optical distributor 5 and an optical connector storage unit 6 are provided in the secondary space 32 of the housing 2.
The optical distributor 5 (optical splitter) branches the secondary side optical fiber 22 into a plurality of branch side optical fibers 23, and the secondary side optical fiber 22 is connected to the incident end 5 a, and the branch side optical fiber 23. Is connected to the output end 5b.
As shown in FIG. 4, the light distributor 5 is attached to the inner surface of the lower portion of the rear wall 11d in the secondary side space 32 by a fixture 11f. One or a plurality of optical distributors 5 can be used. In the illustrated example, two optical distributors 5 are stacked and used.

As shown in FIGS. 1, 2, and 4, the optical connector holding unit 6 holds the branch-side optical connector 23 a at the tip of the branch-side optical fiber 23 that is not connected to the optical connector adapter 4, It has an insertion port 6a into which the branch side optical connector 23a can be inserted and removed.
In the illustrated example, a plurality of optical connector holding portions 6 are attached to the inner surface of the lower portion of the secondary door portion 13. As for the optical connector holding | maintenance part 6, the row | line | column along the width direction of the secondary side door part 13 is provided in multiple steps up and down.

As shown in FIGS. 1, 2, and 5, the primary space 31 of the housing 2 is provided with one or a plurality of optical fiber connection trays 7.
The optical fiber connection tray 7 can accommodate the connection portion 24 between the optical fiber 20 a drawn from the input side optical cable 20 and the primary side optical fiber 21. The optical fiber connection tray 7 can also store a connection portion 28 between the optical fiber 26 a drawn from the output side optical cable 26 and the output side optical fiber 27.

In the example shown in FIGS. 2 and 5, three optical fiber connection trays 7 are stacked and attached to the inner surface of the primary side door portion 12.
As shown in FIG. 5, at least one of the optical fiber connection trays 7 is rotatably attached to the primary door portion 12 at a hinge portion 7 b provided on one side edge 7 a along the vertical direction. . For this reason, the optical fiber connection tray 7 can be in a posture suitable for work such as attachment and removal of the connection portions 24 and 28.
In the illustrated example, the connection portions 24 and 28 can be detachably attached to the plurality of attachment portions 7c provided on one surface of the optical fiber connection tray 7 along the vertical direction.

Next, the optical wiring in the optical termination box 1 will be described.
As shown in FIG. 1 and FIG. 2, the input side optical cable 20 having the optical fiber 20a serving as the input side optical line is introduced into the primary side space 31, and the optical fiber 20a drawn from the input side optical cable 20 is the primary side light. Connected to one end of the fiber 21, the connection portion 24 is accommodated in the optical fiber connection tray 7. For the connection portion 24, connection by mechanical splice, fusion connection, or the like can be employed.

The optical connector 21 a (optical connector plug) at the other end of the primary side optical fiber 21 is connected from the primary side space 31 to the optical connector adapter 4. In FIG. 1, the optical connector 21a is connected to the optical connector adapter 4 positioned at the top. Hereinafter, the optical connector adapter 4 may be referred to as an input side optical connector adapter 4A (input side optical connector). The number of input side optical connector adapters 4A can be one or more.
An optical connector 22a at one end of the secondary side optical fiber 22 is connected to the input side optical connector adapter 4A from the secondary side space 32, whereby the primary side optical fiber 21 and the secondary side optical fiber 22 are connected to the optical connector. It is connected via the adapter 4A.

The other end of the secondary side optical fiber 22 is connected to the incident end 5 a of the optical distributor 5. One end of a plurality of branch side optical fibers 23 is connected to the emission end 5b.
The branch side optical connector 23a (optical connector plug) at the other end of the branch side optical fiber 23 can be connected from the secondary side space 32 to the output side optical connector adapter 4B (output side optical connector) of the optical connector adapter 4. It is.
The output-side optical connector adapter 4B is at least a part of the optical connector adapter 4 other than the input-side optical connector adapter 4A, and those other than the optical connector adapter 4A positioned at the top in FIG. 1 are the optical connector adapter 4B. It is. The number of output side optical connector adapters 4B can be one or more.
The required number of the plurality of branch side optical fibers 23 is selected and connected to the output side optical connector adapter 4B.

  As shown in FIG. 4, the branch-side optical connector 23a of the branch-side optical fiber 23 that is not connected to the optical connector adapter 4B can be inserted into the insertion port 6a of the optical connector holding unit 6 and held.

As shown in FIGS. 1 and 2, the output-side optical connector adapter 4 </ b> B to which the branch-side optical fiber 23 is connected has an optical connector 27 a (optical connector plug) at one end of the output-side optical fiber 27 from the primary-side space 31. Accordingly, the branch side optical fiber 23 and the output side optical fiber 27 are connected via the optical connector adapter 4B.
The other end of the output side optical fiber 27 is connected to an optical fiber 26 a (output side optical line) drawn from the output side optical cable 26, and the connection portion 28 is accommodated in the optical fiber connection tray 7. For the connection portion 28, connection by mechanical splice, fusion connection, or the like can be employed.

Thus, the optical fiber 20a of the input side optical cable 20 is connected to the optical distributor 5 via the primary side optical fiber 21, the input side optical connector adapter 4A, and the secondary side optical fiber 22, and is branched here. The branch side optical fiber 23 is connected to the optical fiber 26a of the output side optical cable 26 via the output side optical connector adapter 4B and the output side optical fiber 27.
The number of input-side optical fibers 20 a constituting the line corresponds to the number obtained by dividing the number of output-side optical fibers 26 a by the number of branches in the optical distributor 5.

The optical fiber 20a, the primary-side optical fiber 21, the secondary-side optical fiber 22, and the branch-side optical fiber 23 of the input-side optical cable 20 are multi-core or single-core optical fibers such as an optical fiber core wire and an optical fiber cord. Various configurations can be adopted.
For the branch side optical fiber 23, an optical fiber cord, for example, an optical fiber cord having an outer diameter of about 2 mm can be used.
The optical connectors (optical connector plugs) 21a, 22a, 23a, 27a and the optical connector (optical connector adapter) 4 include a MU type optical connector (F14 type optical connector established in JIS C 5983. MU: Miniature-Unit coupling optical. fiber connector), SC type optical connector (F04 type optical connector established by JIS C 5973, SC: Single fiber Coupling optical fiber), LC type optical connector (trademark of Lucent), etc. can be employed.

Next, an operation when it is necessary to change the wiring configuration will be described.
As shown in FIGS. 1 and 2, for example, when the number of lines is increased, the required number of the branch side optical fibers 23 held in the optical connector holding unit 6 is removed from the optical connector holding unit 6, The secondary side space 32 is connected to the connected optical connector adapter 4B.
The branch side optical fiber 23 is connected to the optical fiber 26a of the output side optical cable 26 via the optical connector adapter 4B and the output side optical fiber 27, and a new line is added.
This operation can be performed with the secondary door 13 opened and the secondary space 32 opened. At this time, the primary door 12 can be closed.

According to the optical termination box 1, since the work of changing the wiring can be performed only in the secondary side space 32 partitioned by the partition wall 3, it is easy to handle the optical fiber and the work is easy.
Moreover, since an operator does not accidentally touch the optical fiber in the primary side space 31, the work can be performed without adversely affecting the wiring in the primary side space 31.
The number of input-side optical fibers 20a constituting the line may be the number obtained by dividing the number of output-side optical fibers 26a by the number of branches in the optical distributor 5, and the number of input-side fibers can be reduced.

  FIG. 6 is a perspective view showing an appearance of the optical termination box 41 according to the second embodiment of the present invention. The optical termination box 41 has the same basic configuration as that of the optical termination box 1 shown in FIG. The number of fiber connection trays 7 and the like is large, and more lines can be accommodated.

  FIG. 7 is a perspective view showing an appearance of an optical termination box 51 according to the third embodiment of the present invention. FIG. 8 is a perspective view showing the first partition wall 53 and the optical connector adapter 4. FIG. 9 is a perspective view showing the optical fiber connection tray 7. FIG. 10 is a perspective view showing the light distributor 5. FIG. 11 is a perspective view showing the optical connector holding unit 6.

  As shown in FIG. 7, the optical termination box 51 is provided with partition walls 53 to 55 that partition the interior of the housing 52 into a primary space 71 and a secondary space 72. A plurality of optical connector adapters 4 are provided.

As shown in FIGS. 7 and 8, the housing 52 includes a housing body 61 and a door portion 64 that opens and closes the front opening 61 a of the housing body 61.
The housing body 61 includes side walls 61c and 61c provided on both side edges of the substantially rectangular bottom wall 61b, a rear wall 61d provided on the rear edge of the bottom wall 61b, and a top wall 61e parallel to the bottom wall 61b. In addition, a mounting plate 61f provided in parallel to the bottom wall 61b is provided at the approximate center of the casing body 61 in the height direction.
The door part 64 is rotatably attached to the side wall 61c via a hinge part 64b provided on the side edge 64a. The door part 64 functions as a secondary door part that opens and closes the secondary side space 72.

  As shown in FIGS. 7 and 9, an input for fixing the terminal of the input side optical cable 20 introduced into the primary space 71 from the input side introduction port 16 formed in the bottom wall 61b is fixed to the lower inner surface of the rear wall 61d. The side optical cable fixing part 18 and the output side optical cable fixing part 19 for fixing the terminal of the output side optical cable 26 introduced into the primary side space 71 from the output side introduction port 17 formed in the bottom wall 61b are provided.

As shown in FIG. 7, a first partition wall 53 is provided at an upper portion in the housing main body 61 at a distance from the rear wall 61 d. In the normal state shown in FIG. 7, the first partition wall 53 is substantially parallel to the rear wall 61d, and the surface 53a faces the front surface.
In this normal state, the optical connector can be connected to the optical connector adapter 4 from the surface 53a side.
On the lower edge 53c of the first partition wall 53, a support plate 56 extending perpendicularly to the first partition wall 53 is provided toward the front in this figure. On the support plate 56, the optical fibers 22 and 23 connected to the optical connector adapter 4 can be placed.

As shown in FIG. 8, the first partition wall 53 is rotatably attached to the front end of the attachment plate 61f by a hinge part 53d provided on the lower edge 53c, and is opened by being turned to the near side. It can be.
In this open state, the back surface 53b of the first partition wall 53 is exposed upward, and the optical connector can be connected to the optical connector adapter 4 from the back surface 53b side.

  The optical connector adapter 4 connects optical connectors inserted from the connector insertion ports 4 a on both sides, and the connector insertion ports 4 a on both sides are opened on one side and the other side of the partition wall 53.

  As shown in FIGS. 7 and 8, a second partition wall 54 is provided at a position higher than the first partition wall 53 in the housing body 61. The second partition wall 54 is substantially parallel to the top wall 61e and is spaced from the top wall 61e.

As shown in FIGS. 7 and 9, a third partition wall 55 is provided at the front portion of the bottom wall 61b. The third partition wall 55 is rotatably attached to the bottom wall 61b by a hinge portion 55b provided on the lower edge 55a, and is rotated to the front from the normal state indicated by a virtual line in FIG. It can be set as the open state shown by.
In this open state, the back surface 55c of the third partition wall 55 is exposed upward, and work on the optical fiber connection tray 7 provided on the back surface 55c becomes possible.
One of the optical fiber connection trays 7 is rotatably attached to the third partition wall 55 at a hinge portion 7b provided on one side edge 7a.
The third partition wall 55 is attached to the bottom wall 61 b in front of the input side introduction port 16 and the output side introduction port 17.

As shown in FIG. 7, the secondary space 72 is a space corresponding to the front surface side of the first partition wall 53 (normal state) and the third partition wall 55 (normal state) and the upper surface side of the second partition wall 54. It is.
The primary space 71 is a space on the lower surface side of the second partition wall 54 and corresponding to the rear surface side of the first partition wall 53 (normal state) and the third partition wall 55 (normal state). The primary side space 71 is a space secured behind the secondary side space 72 by the partition walls 53 and 55.
The partition walls 53 and 55 function as primary side door portions that open and close the primary side space 71.

As shown in FIG. 10, one or more light distributors 5 are provided on the second partition wall 54. Since the light distributor 5 is on the second partition wall 54, it is provided in the secondary space 72.
As shown in FIG. 11, one or a plurality of optical connector holding portions 6 are provided on the inner surface of the lower portion of the door portion 64. Since the optical connector holding part 6 is on the lower inner surface of the door part 64, it is provided in the secondary space 72.
As shown in FIGS. 7 and 9, since the optical fiber connection tray 7 is on the back surface 55 c side of the third partition wall 55, it is provided in the primary side space 71. Further, since the input side introduction port 16 and the output side introduction port 17 are on the rear side of the third partition wall 55, the input side optical cable 20 and the output side optical cable 26 are introduced into the primary side space 71.

Next, the optical wiring in the optical termination box 51 will be described.
As shown in FIG. 7, the optical fiber 20 a of the input side optical cable 20 is connected to one end of the primary side optical fiber 21, and the connection portion 24 is accommodated in the optical fiber connection tray 7.
The operation of storing the connection portion 24 in the optical fiber connection tray 7 can be performed with the third partition wall 55 open.

The optical connector 21a at the other end of the primary side optical fiber 21 is connected from the primary side space 71 to the optical connector adapter 4 (input side optical connector adapter 4A). As shown in FIG. 8, the operation of connecting the optical connector 21a to the input-side optical connector adapter 4A can be performed with the first partition wall 53 in an open state.
An optical connector 22a at one end of the secondary side optical fiber 22 is connected to the input side optical connector adapter 4A from the secondary side space 72, whereby the primary side optical fiber 21 and the secondary side optical fiber 22 are connected to the optical connector. It is connected via the adapter 4A.
The operation of connecting the optical connector 22a to the input side optical connector adapter 4A can be performed by returning the first partition wall 53 to the normal state.

As shown in FIG. 10, the other end of the secondary side optical fiber 22 is connected to the incident end 5a of the light distributor 5, and one end of a plurality of branch side optical fibers 23 is connected to the output end 5b.
The branch-side optical connector 23 a at the other end of the branch-side optical fiber 23 can be connected from the secondary-side space 72 to the output-side optical connector adapter 4 B of the optical connector adapter 4.
The required number of the plurality of branch side optical fibers 23 is selected and connected to the output side optical connector adapter 4B.
The branch side optical connector 23a of the branch side optical fiber 23 that is not connected to the optical connector adapter 4B can be inserted into the insertion port 6a of the optical connector holding unit 6 and held.

The output side optical connector adapter 4B to which the branch side optical fiber 23 is connected is connected to the optical connector 27a at one end of the output side optical fiber 27 from the primary side space 71, whereby the branch side optical fiber 23 and the output side optical fiber are connected. 27 is connected via the optical connector adapter 4B.
The other end of the output side optical fiber 27 is connected to the optical fiber 26 a of the output side optical cable 26, and the connection portion 28 is accommodated in the optical fiber connection tray 7.

Next, an operation when it is necessary to change the wiring configuration will be described.
As shown in FIG. 7, for example, when the number of lines is increased, the required number of the branch side optical fibers 23 held in the optical connector holding unit 6 is removed from the optical connector holding unit 6, and unconnected light is connected. It connects from the secondary side space 72 to the connector adapter 4B.
The branch side optical fiber 23 is connected to the optical fiber 26a of the output side optical cable 26 via the optical connector adapter 4B and the output side optical fiber 27, and a new line is added.

According to the optical termination box 51, since the work of changing the wiring can be performed only in the secondary side space 72 partitioned by the partition walls 53 to 55, it is easy to handle the optical fiber and the work is easy. .
In addition, since an operator does not accidentally touch the optical fiber in the primary side space 71, the work can be performed without adversely affecting the wiring in the primary side space 71.

  In the illustrated example, the optical connector adapter 4 is used as the input side and output side optical connectors. However, the present invention is not limited thereto, and optical connector receptacles to which the optical connectors 22a and 23a can be connected may be used.

FIG. 12 is a schematic diagram showing an application example of the optical termination box 1.
In the example shown here, the input side optical cable 20 is wired from an FTM (Fiber Termination Module) 60 toward the optical termination box 1 installed indoors or outdoors, and the output side optical cable 26 is connected to the optical termination box 1. Are wired toward each floor in the building 61 and the closure 63 close to the user's house 62. A line is drawn from the optical closure 63 to the user's home 62 by the optical drop cable 64.

1, 41, 51 ... optical termination box, 2, 52 ... housing, 3, 53-55 ... partition wall, 4 ... optical connector adapter (optical connector), 4A ... input Side optical connector adapter (input side optical connector), 4B ... Output side optical connector adapter (output side optical connector), 5 ... Optical distributor, 6 ... Optical connector holding section, 7 ... Optical fiber Connection tray, 7a ... one side edge, 7b ... hinge part, 12 ... primary side door part, 13 ... secondary side door part, 20 ... input side optical cable, 20a ... light Fiber (input side optical line), 21 ... primary side optical fiber, 22 ... secondary side optical fiber, 23 ... branch side optical fiber, 23a ... branch side optical connector, 26 ... output Side optical cable, 26a ... optical fiber (output side optical line), 27 ... output side optical fiber, 1, 71 ... primary-side space, 32, 72 ... secondary-side space.

Claims (4)

An optical termination box that branches an input side optical line and connects to a plurality of output side optical lines,
A partition wall that separates the interior of the housing into a primary side space and a secondary side space is provided in the housing, and an input side optical line and an output side optical line can be introduced into the primary side space, and light can be introduced into the secondary side space. A distributor and an optical connector storage unit are provided;
The partition wall is provided with input side and output side optical connectors,
A primary side optical fiber connected to the input side optical line can be connected to a secondary side optical fiber via the input side optical connector,
The optical distributor can branch the secondary side optical fiber into a plurality of branch side optical fibers,
The output side optical connector can connect the branch side optical fiber to an output side optical fiber connected to the output side optical line by connecting a branch side optical connector at the tip of the branch side optical fiber. ,
The optical connector holding portion, Ri holdable der branched side optical connector that is not connected to the output side optical connector,
To the input side optical connector, the primary side optical fiber can be connected from the primary side space, and the secondary side optical fiber can be connected from the secondary side space,
To the output side optical connector, the branch side optical fiber can be connected from the secondary side space, and the output side optical fiber can be connected from the primary side space,
The housing has a primary side door part that opens and closes the primary side space and a secondary side door part that opens and closes the secondary side space,
The optical connector holding portion is provided on the inner surface of the secondary door portion,
The casing is provided with an optical fiber connection tray capable of accommodating the connection portion between the input side optical line and the primary side optical fiber, and the connection portion between the output side line and the output side optical fiber,
The optical fiber connection tray, attached to the inner surface of the primary-side door portion, and Mitsunari characterized that you have rotatably mounted to said housing at the hinge portion provided on one side edge End box. The optical termination box according to claim 1, wherein the branch side optical fiber is made of an optical fiber cord. The optical termination box according to claim 1 or 2 , wherein the partition wall divides the inside of the housing into a primary side space on one side and a secondary side space on the other side. The optical termination box according to any one of claims 1 to 3 , wherein the partition wall secures the primary side space behind the secondary side space.

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