JP2004029701A - Concentrator and optical fiber excess length processing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To drastically reduce the number of excess length processing tools compared with the number of optical fibers to miniaturize an entire concentrator, considering the number of optical fibers. <P>SOLUTION: The concentrator is provided with a plurality of circuit boards 1 having a plurality of connection parts 1a, an enclosure 2 for storing the circuit boards juxtaposed therein, and excess length processing tools 4 which have one end parts connected to the connection parts 1a and wind excess length parts of a plurality optical fibers 3 having one parts in lengthwise directions fixed to perform excess length processing, and each excess length processing tool 4 has a holding part which hold a winding part where a plurality of optical fibers 3 are wound. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a concentrator having a plurality of optical fibers branched from an end of an optical cable such as a communication line connected to a plurality of circuit boards, and an optical fiber excess length processing method for processing an excess length of the optical fiber.
[0002]
[Prior art]
2. Description of the Related Art In recent years, a telephone communication network for connecting a telephone station to ordinary households by an optical cable has been developed, and a telephone station in the telephone communication network has a concentrator. This concentrator includes a plurality of circuit boards having a plurality of connection portions on one side thereof, and the circuit boards are housed side by side in the housing section of the housing having a plurality of housing sections arranged in parallel. I have.
[0003]
The optical cable is fixed to a base on which the housing is mounted by fixing a part in the longitudinal direction by a band member to regulate the movement in the longitudinal direction, and the optical fiber is branched from the end of the optical cable near the fixing portion. I have. The arrangement position of the housing with respect to the gantry, and the wiring route of the optical fiber may be slightly different, and the optical fiber is fixed so that the optical fiber can be connected to the connection portion of the circuit board in any case. Since the extra length is generated between the portion and the one end, an extra length processing tool that processes the extra length by winding is used. (For example, refer to Patent Document 1.)
The extra length processing tool has a winding portion around which one of the optical fibers is wound, and is stored above the circuit board so as to correspond to the circuit board.
[0004]
[Patent Document 1]
Japanese Patent No. 2993602
[0005]
[Problems to be solved by the invention]
However, in the concentrator configured as described above, since one extra length processing tool is used for one optical fiber, many optical fibers are connected to a circuit board having many connecting portions. In this case, the number of extra length processing tools is increased corresponding to a plurality of optical fibers, the storage space for storing the extra length processing tools is expanded, and the entire concentrator is larger than the number of optical fibers. It was in the form, and improvement measures were requested.
[0006]
The present invention has been made in view of such circumstances, and the extra length processing tool is configured to have a holding portion that holds a wound portion where a plurality of optical fibers are wound, thereby reducing the number of optical fibers. An object of the present invention is to provide a concentrator capable of reducing the number of extra-length processing tools and making the entire concentrator compact for the number of optical fibers.
[0007]
In addition, by arranging the extra-length processing tool at a position opposite to the position where the circuit board is inserted into and removed from the circuit board, the entire concentrator can be reduced in spite of the number of optical fibers. The purpose is to provide.
[0008]
It is another object of the present invention to provide a concentrator capable of shortening an extra length of an optical fiber by providing an optical fiber insertion passage above or below a circuit board.
[0009]
Another object of the present invention is to provide a concentrator capable of easily pulling out an optical fiber from the insertion passage by adopting a configuration in which the circuit board side of the insertion passage is lower than the extra length processing tool side.
[0010]
Further, the extra-length processing tool main body, a holding piece for holding the wound portion between the extra-length processing tool main body, and the other end of the holding piece locked to the extra-length processing tool main body. A line concentrator that can easily hold a plurality of optical fibers to the extra length processing tool by the holding space between the extra length processing tool main body and the holding piece. With the goal.
[0011]
Further, between the extra length processing tool main body and the holding piece, a configuration having an outer peripheral side holding portion where the outer peripheral side of the wound portion of the optical fiber is in contact and an inner peripheral side holding portion where the inner side of the wound portion is in contact with the wound portion Accordingly, it is an object of the present invention to provide a concentrator that can easily process a plurality of optical fibers having different lengths of the extra length portion with one extra length processing tool.
[0012]
In addition, a plurality of holding pieces are provided, each holding piece is disposed at a position separated from the extra length processing tool main body, and a locking means is provided on a side of each holding piece near each other. When the wound portion of the optical fiber is inserted into the holding space between the extra length processing tool main body and the holding piece in a state where the locking by the locking means is released, the winding is performed by the elastic restoration of the wound portion of the optical fiber. It is an object of the present invention to provide a concentrator capable of maintaining a wound state of a part and operating a locking means without being hindered by the wound part.
[0013]
In addition, a plurality of guide projections for guiding the optical fibers in the juxtaposition direction in which the circuit boards are juxtaposed are provided above or below the circuit board so as to be separated from each other in the juxtaposition direction. It is an object of the present invention to provide a concentrator capable of transversely passing a corresponding optical fiber and arranging the optical fiber at a position corresponding to an empty circuit board.
[0014]
Further, a storage unit for storing a plurality of extra length processing tools in a side-by-side manner is provided in the housing, and the storage unit is disposed above, below, or behind the insertion path to insert an optical fiber. It is an object of the present invention to provide a line concentrator capable of facilitating insertion work into a passage.
[0015]
Also, by having at least one of the upper side and the lower side of the storage portion open, when storing the extra length processing tool in a narrow storage space and performing extra length processing, the optical connector has a bulky optical connector at one end thereof. Each optical connector of a plurality of optical fibers can be prevented from passing through a narrow storage space.Furthermore, even after the extra length processing tool holding the wound optical fiber is stored in the storage section, the optical fiber can be accessed and wound. It is an object of the present invention to provide a line concentrator capable of adjusting a turning state.
[0016]
In addition, by providing a locking portion for locking each extra length processing tool in the storage portion, and having a configuration in which a locked portion locked by this locking portion is provided in each extra length processing tool, It is an object of the present invention to provide a line concentrator that can easily store extra processing tools.
[0017]
Further, the excess length portions of the plurality of optical fibers are wound, and the wound portions are held by the excess length processing device, and then the excess length processing device is inserted into the storage portion of the housing, thereby reducing the number of optical fibers. An object of the present invention is to provide an optical fiber surplus processing method capable of reducing the number of times of surplus processing and improving the workability of surplus processing.
[0018]
In addition, by winding a plurality of optical fibers in a lump and holding the wound portion with an extra length processing tool, the number of extra length processing can be further reduced compared to the number of optical fibers, and the extra length processing work can be performed. It is an object of the present invention to provide an optical fiber extra length processing method capable of further improving the performance.
[0019]
In addition, an optical fiber having a longer surplus length is wound around a large diameter, an optical fiber having a shorter surplus length is wound around a small diameter, and the large diameter winding portion and the small diameter winding portion are wound. An object of the present invention is to provide an optical fiber extra length processing method that can improve the workability of extra length processing of a plurality of optical fibers having different extra length portions by holding the extra length processing tool.
[0020]
When the extra length processing tool is inserted into the storage unit from the outside of the storage unit, the winding portion of the optical fiber is rotated, so that the extra length processing tool is stored in the storage unit without newly generating extra length. When the extra length processing tool is pulled out of the storage section to the outside of the storage section, the winding portion of the optical fiber is rotated, so that the extra length processing tool is pulled out without causing the optical fiber to hit. It is an object of the present invention to provide an optical fiber surplus length processing method that can perform the method.
[0021]
[Means for Solving the Problems]
A concentrator according to a first aspect of the present invention includes a plurality of circuit boards having a plurality of connection parts, a housing accommodating the circuit boards side by side, one end of which is connected to the connection part, and one end in the longitudinal direction. An excess length processing tool for winding and processing the excess length portion of the plurality of optical fibers having fixed portions, and a concentrator collecting the plurality of optical fibers processed by the excess length processing device on the circuit board. In the apparatus, the excess length processing tool may include a holding unit that holds a wound portion around which the plurality of optical fibers are wound.
[0022]
According to the first aspect of the invention, since a plurality of optical fibers can be wound around one extra-length processing tool for processing, when a large number of optical fibers are connected to a circuit board having a large number of connecting portions, the The number of extra length processing tools can be significantly reduced compared to the number of fibers, and the storage space for storing extra length processing tools can be reduced. Can be miniaturized.
[0023]
In the concentrator according to the second aspect, the circuit board is detachable, and the extra length processing tool is disposed at a position opposite to a position where the circuit board is inserted and removed from the circuit board. There is a feature.
[0024]
In the second invention, since the extra length processing tool is arranged on the back side of the circuit board, it is not necessary to provide a storage space for storing the extra length processing tool above the circuit board, and the optical fiber The entire concentrator can be lowered for the number of lines.
[0025]
A concentrator according to a third invention is characterized in that the circuit board can be inserted and removed in front of the housing, and the housing has an optical fiber insertion passage above or below the circuit board.
[0026]
In the third aspect, the optical fiber wound by the extra length processing tool can be disposed in the insertion path, so that the extra length of the optical fiber can be shortened.
[0027]
A line concentrator according to a fourth invention is characterized in that the insertion path is lower on the circuit board side than on the extra length processing tool side.
[0028]
In the fourth invention, since the circuit board side of the insertion path is lower than the extra length processing tool side, the optical fiber can be easily pulled out from the insertion path.
[0029]
In the wire concentrating apparatus according to a fifth aspect of the present invention, the extra length processing tool has an extra length processing tool main body, one end of which is connected to the extra length processing tool main body, and holds the winding portion between the extra length processing tool main body. And a locking means for locking the other end of the holding piece to the extra length processing tool main body.
[0030]
According to the fifth aspect, a closed loop holding space can be formed between the extra length processing tool main body and the holding piece, and the wound portion of the optical fiber can be held in the holding space. Even when the optical fibers are wound at once, the wound portion can be retained by releasing the retaining piece by the retaining means and inserting it into the retaining space. Can be easily held in the extra length processing tool.
[0031]
According to a sixth aspect of the present invention, there is provided a wire concentrator according to the sixth aspect, wherein an outer peripheral side holding portion in which the outer peripheral side of the wound portion of the optical fiber is in contact with the extra length processing tool main body and the holding piece; And a peripheral holding portion.
[0032]
According to the sixth aspect, an optical fiber having a longer surplus portion is wound around a large diameter, an optical fiber having a shorter surplus length is wound around a small diameter, and the large diameter wound portion is wound around the optical fiber. Since the holding portion can be held by the outer holding portion and the small-diameter wound portion can be held by the inner holding portion of the holding piece, a plurality of optical fibers having different lengths of the extra length portion can be held. It can be processed easily with two extra processing tools.
[0033]
In the wire concentrator according to a seventh aspect of the present invention, the holding pieces are plural, each holding piece is disposed at a position separated from the extra length processing tool main body, and the locking means is provided on a side close to each holding piece. It is characterized by having.
[0034]
According to the seventh aspect, since the wound portion of the optical fiber can be inserted into the holding space from the mutually close side of the plurality of holding spaces formed at the separated positions, the holding piece is locked by the locking means. When the wound portion of the optical fiber is inserted into the holding space in a state in which is released, the wound state of the wound portion can be maintained by the elastic restoration of the wound portion of the optical fiber. The locking means can be operated without being disturbed.
[0035]
In the concentrator according to an eighth aspect of the present invention, the circuit board can be inserted and removed in front of the housing, and guides the optical fiber above or below the circuit board in a juxtaposition direction in which the circuit boards are juxtaposed. A plurality of guide projections are provided apart from each other in the juxtaposition direction.
[0036]
According to the eighth invention, when one of the circuit boards fails in a state where an empty circuit board to which one end of the optical fiber is not connected exists in the plurality of circuit boards arranged in parallel, the failed circuit board The intermediate portion of the optical fiber corresponding to the above is hooked on one of the guide projections, and the optical fiber is transferred laterally. Further, the middle of the optical fiber is hooked on the other one of the guide projections, and One end can be arranged at a position corresponding to the empty circuit board, and the optical fiber can be arranged neatly.
[0037]
A concentrator according to a ninth aspect of the present invention includes a plurality of extra length processing tools, and the housing has a storage unit for storing the extra length processing tools side by side by inserting the respective extra length processing tools from the rear to the front of the housing. The storage portion is disposed above, below, or behind the insertion passage.
[0038]
According to the ninth aspect, since the insertion path is opened to the outside, the optical fiber can be easily inserted into the insertion path by using the space between the storage section and the insertion path without being obstructed by the storage section. Can be inserted.
[0039]
A concentrator according to a tenth aspect is characterized in that the storage section is open at least one of the upper side and the lower side.
[0040]
In the tenth aspect, when the extra length processing tool is stored in a narrow storage space and the extra length processing is performed, such as when only one storage space for the extra length processing tool remains in the storage unit, The optical connectors of the plurality of optical fibers having a bulky optical connector at one end can be easily inserted into the insertion passage from the upper or lower opening of the storage unit without passing through the narrow storage space. Further, even after the extra length processing tool holding the wound optical fiber is stored, the optical fiber can be accessed at the upper or lower opening of the storage unit to adjust the winding state.
[0041]
In the wire concentrator according to the eleventh invention, the storage portion has a locking portion for locking each extra length processing tool, and each extra length processing tool is engaged with the locking portion. It is characterized by having a stop.
[0042]
According to the eleventh aspect, since the extra length processing tool can be stored by locking the locked portion of the extra length processing tool to the locking portion, the storage of the extra length processing tool can be easily performed. it can.
[0043]
An optical fiber extra length processing method according to a twelfth invention is characterized in that one end is connected to a plurality of circuit boards housed side by side in the housing part of the housing having the housing part, and a part in the longitudinal direction is fixed. In an optical fiber extra length processing method for extra-length processing of the extra length portions of the plurality of optical fibers by the extra length processing tool, the housing has a storage unit for storing the extra length processing tools side by side. In this method, the excess length portions of the plurality of optical fibers are wound, the wound portions are held by the excess length processing device, and then the excess length processing device is inserted into the storage section.
[0044]
According to the twelfth invention, since a plurality of optical fibers can be wound around one extra-length processing tool and processed, when a large number of optical fibers are connected to a circuit board having a large number of connecting portions, the The number of extra length processing can be reduced compared to the number of fibers, and the extra length processing state can be maintained by inserting the extra length processing tool into the storage part of the housing, thereby improving the workability of extra length processing. Can be improved.
[0045]
An optical fiber extra length processing method according to a thirteenth aspect is characterized in that a plurality of optical fibers are wound at once, and the wound portion is held by an extra length processing tool.
[0046]
According to the thirteenth aspect, after the plurality of optical fibers are collectively wound, the excess length of the plurality of optical fibers is collectively processed by holding the wound portion with a surplus processing tool. Therefore, even when a large number of optical fibers are connected to a circuit board having a large number of connection portions, the number of times of extra length processing can be further reduced compared to the number of optical fibers, and the workability of extra length processing can be further improved. Can be further improved.
[0047]
An optical fiber extra length processing method according to a fourteenth aspect is to wind an optical fiber having a longer extra length into a larger diameter, winding an optical fiber having a shorter extra length into a smaller diameter, It is characterized in that the winding portion and the small-diameter winding portion are held by a surplus processing tool.
[0048]
According to the fourteenth aspect, the large-length wound portion and the small-diameter wound portion are held by the extra-length processing tool, so that the workability of extra-length processing of a plurality of optical fibers having different extra-length portions is improved. Can be improved.
[0049]
The optical fiber extra length processing method according to the fifteenth invention, when inserting the extra length processing tool into the storage unit from outside the storage unit, or when pulling out the extra length processing tool from the storage unit to the outside of the storage unit, The winding portion of the optical fiber is rotated.
[0050]
According to the fifteenth aspect, when the excess length processing tool is inserted into the storage section after the wound portion of the optical fiber is held in the excess length processing tool in a state where the extra length processing tool is taken out of the storage section. The extra length processing tool can be stored in the storage unit without generating extra extra length. Further, when pulling out the extra length processing tool from the storage section to the outside of the storage section, the extra length processing tool can be pulled out without hitting the optical fiber.
[0051]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings showing the embodiments.
Embodiment 1
FIG. 1 is a diagram showing a configuration of a first embodiment of a concentrator according to the present invention, and a perspective view with a part thereof omitted, FIG. 2 is a longitudinal side view of the concentrator, FIG. 4 is a perspective view showing a state in which the concentrator is mounted on a gantry, FIG. 5 is a perspective view showing a part of the rear side of the concentrator, and FIG. It is a perspective view showing the state where it processed.
[0052]
This concentrator includes a plurality of circuit boards 1 having a plurality of connection portions 1a on one side serving as a front surface, and a plurality of housing portions 21 having a plurality of housing portions 21 in which the circuit boards 1 are housed side by side. And an extra length processing tool 4 for winding the extra length of the optical fiber 3 whose one end is connected to the connection portion 1a and processing the extra length. The circuit board 1 can be inserted into and removed from the circuit board 1 at a position opposite to the position where the circuit board 1 is inserted and removed. The extra length processing tool 4 is arranged at a position corresponding to the substrate 1. Optical connectors 5 are connected to the respective connection portions 1a of the circuit board 1.
[0053]
The housing 2 has an open front surface, a plurality of the housing portions 21 provided in parallel on the left and right, and an intake passage 22 disposed below the housing portions 21 and for introducing outside air taken in from the front surface into each of the housing portions 21. An insertion path 23 disposed below the intake path 22 and penetrating back and forth; and an exhaust path 24 disposed above the storage section 21 and discharging air in the storage section 21 to the outside. I have. As shown in FIG. 2, the housing 2 is further positioned on the back side with respect to the housing portion 21, at a position corresponding to the housing portion 21, in other words, the circuit board 1 is inserted into and removed from the circuit board 1. At a position corresponding to the storage section 21 at a position opposite to the position where the storage section 21 is provided, a plurality of storage sections 25 opened in the opposite direction to the storage section 21 are provided in parallel on the left and right as shown in FIG. The housing 2 is mounted on a gantry 6. The insertion passage 23 penetrates the optical fiber 3, and is inclined downward from the middle in the front-rear direction to the front edge as shown in FIG. The insertion path 23 may be lower on the circuit board 1 side than on the extra length processing tool 4 side, and may not be inclined.
[0054]
The optical fiber 3 is a plurality of fibers branched from the optical cable 30, and is fixed at a part in the longitudinal direction by holding the end of the optical cable 30 on the gantry 6 by the band member 7. A surplus portion occurs up to one end connected to the connection portion 1a. The extra length portions of the plurality of optical fibers 3 have substantially the same length.
[0055]
This extra length differs in length in relation to the connection portions 1a provided vertically on one side which is the front surface of the circuit board 1. For example, in a configuration in which the excess length processing tool 4 is disposed at a position on the back side with respect to the circuit board 1 and the optical fiber 3 is inserted through the insertion passage 23 below the circuit board 1, the upper connecting portion 1a The extra length of the optical fiber 3 connected to the lower connecting portion 1a becomes shorter, and the extra length of the optical fiber 3 connected to the lower connecting portion 1a becomes longer. Therefore, it is preferable that the optical fiber 3 having a longer surplus portion be wound around a large diameter, and the optical fiber 3 having a shorter surplus portion be wound around a small diameter.
[0056]
7 is a perspective view of the extra-length processing tool, FIG. 8 is a cross-sectional view of the extra-length processing tool, and FIG. 9 is a perspective view showing a state before the wound portion of the optical fiber is held by the extra-length processing tool.
The extra length processing tool 4 includes an extra length processing tool main body 41 formed of a rectangular plate, two substantially U-shaped holding pieces 43 each having one end connected to the extra length processing tool main body 41, and the other end of the holding piece 43. And a locking means 44 for locking to the extra length processing tool main body 41, and are separately inserted into the storage portion 25. The holding piece 43 holds the winding portion 3 a between the extra length processing tool main body 41 and has a thin hinge 42 in the middle in the longitudinal direction. Is released, the holding piece 43 can be rotated about the hinge 42 as a fulcrum. Further, the two holding pieces 43 are arranged apart from each other in the longitudinal direction of the extra length processing tool main body 41.
[0057]
One end of the holding piece 43 is an outer circumferential side holding portion 45a with which the outer circumferential side of the wound portion 3a of the optical fiber 3 is in contact, and the locking means 44 of the holding piece 43 is inside the wound portion 3a. The inner peripheral side holding portion 45b is in contact with the peripheral side. In addition, the outer circumferential side holding portion 45a and the inner circumferential side holding portion 45b are spaced so as to be able to insert and hold the large diameter wound portion 3a and the small diameter wound portion 3a. It is.
[0058]
The locking means 44 includes a locking projection 44a protruding from the other end of the holding piece 43, an insertion hole 44b into which the locking projection 44a is inserted, and the locking projection inside the insertion hole 44b. The engaging portion 44a has an engaging concave portion 44c, and includes an engaging piece 44d protruding from the extra length processing tool main body 41. The engaging convex portion 44a has an engaging concave portion 44c. The holding space between the long processing tool main body 41 and the holding piece 43 is closed, and the holding space is opened by the engagement and disengagement of the locking projection 44a with the engagement recess 44c.
[0059]
The locking convex portion 44a is provided protruding in the middle of a thin operation piece 46 connected to the other end of the holding piece 43. By pinching the operating piece 46, the operating piece 46 is bent, and the locking convex portion 44a is bent. The engagement of the locking projection 44a with the engagement recess 44c is released by the elastic restoring force of the operation piece 46 when the operation is not performed.
[0060]
In the concentrator configured as described above, one end of a large number of optical fibers 3 branching from the end of the optical cable 30 held by the gantry 6 is inserted into the insertion passage 23 from the rear side of the housing 2, 23 is pulled out to the front side of the circuit board 1, and is separately connected to the connection section 1 a of the circuit board 1 via the optical connector 5. In this case, since the optical fiber 3 is disposed in the insertion path 23, the extra length processing tool 4 is disposed on the back side of the circuit board 1 without disposing the extra length processing tool 4 above and below the circuit board 1. be able to. Further, since the optical fiber 3 can be inserted while sliding along the inclined portion of the insertion passage 23, one end of the optical fiber 3 can be easily pulled out to the front side of the circuit board 1, and one end can be pulled out. It can be easily connected to the connection portion 1a of the circuit board 1.
[0061]
The extra length of the optical fiber 3 generated when the one end of the optical fiber 3 is connected to the connection portion 1a of the circuit board 1 is transferred to the holding portion of the extra length processing tool 4 drawn from the storage portion 25. It is wound and processed.
In this extra length processing, a plurality of optical fibers 3 corresponding to each circuit board 1 are wound at once, and the wound portion 3 a is formed by the extra length processing tool main body 41 pulled out of the storage unit 25 and the holding piece 43. It is inserted and held in the holding space of the holding section between them. In this case, the locking of the two holding pieces 43 by the locking projections 44a and the locking recesses 44c is released by gripping the operation piece 46, the inner sides of the two holding spaces are opened by the hinges 42, and from the opening. By inserting the winding portion 3a into the holding space and pressing the holding piece 43 toward the extra length processing tool main body 41, the locking convex portion 44a engages with the locking concave portion 44c to close the holding space. The winding state of the winding part 3a can be maintained. Thereafter, by inserting the extra length processing tool 4 into the storage unit 25, a plurality of optical fibers 3 can be processed by one extra length processing tool 4.
[0062]
FIG. 10 is a perspective view showing the operation of storing the extra length processing tool that has processed the extra length portion of the optical fiber.
The wound portion 3a is inserted and held in the holding space, and when the extra length processing tool 4 pulled out from the storage portion 25 is inserted into the storage portion 25, the wound portion 3a of the optical fiber 3 rotates. The extra length processing tool 4 can be stored in the storage unit 25 without newly generating extra length. The winding part 3a also rotates when the extra length processing tool 4 is pulled out from the storage part 25 to the outside of the storage part 25.
[0063]
In addition, since the wound portion 3a is inserted and held in the holding space, for example, a plurality of optical fibers 3 having a long surplus portion are wound together at a large diameter and the length of the surplus portion is short. The plurality of optical fibers 3 are collectively wound into a small diameter, so that the large diameter wound portion 3a and the small diameter wound portion 3a can be inserted and held in the holding space. In this case, the large-diameter winding portion 3a can be held by the outer peripheral holding portion 45a, and the small-diameter winding portion 3a can be held by the inner peripheral holding portion 45b. Can be easily processed by one extra length processing tool 4.
[0064]
Embodiment 2
FIG. 11 is a front view showing the configuration of the line concentrator according to the second embodiment of the present invention, and FIG. 12 is a longitudinal sectional side view showing the configuration of the line concentrator according to the second embodiment.
In the line concentrator of the second embodiment, instead of disposing the extra length processing tool 4 at a position on the back side with respect to the circuit board 1, a position corresponding to each circuit board 1 below the circuit board 1 The extra length processing tool 4 is disposed on the optical fiber 3 in the juxtaposition direction in which the circuit boards 1 are juxtaposed below the extra length processing tool 4 at a position corresponding to each extra length processing tool 4. The guide projections 8 for guiding are provided separately from each other in the juxtaposition direction.
[0065]
In the second embodiment, storage units 25 are arranged in parallel in the housing 2 at positions corresponding to the storage units 21 below the storage units 21, and each extra length processing tool 4 is attached to each storage unit 25. It can be inserted and removed in the front and rear direction. The guide projection 8 is a pin whose longitudinal direction is front and rear (the direction in which the extra length processing tool 4 is inserted and removed).
[0066]
In the second embodiment, as shown in FIG. 12, one or a plurality of optical fibers 3 wound around and held by one extra length processing tool 4 correspond to one extra length processing tool 4. For example, the optical fiber 3 is traversed in the leftward direction in FIG. 12 by hooking the guide protrusion 8 provided at the position, and the middle of the optical fiber 3 is hooked to another one of the guide protrusions 8. One end of the optical fiber 3 is lifted upward, and the other end of the optical fiber 3 is separated from the one extra length processing tool 4 and corresponds to another extra length processing tool 4 and the extra length processing tool 4. The circuit board 1 can be disposed at a position corresponding to the circuit board 1. As a result, for example, an optical component connected to one or a plurality of connection portions 1a of one circuit board 1 corresponding to the one extra length processing tool 4 fails, and the optical fiber 3 corresponding to the failed optical component fails. When the optical fiber 3 is connected to the spare connection portion 1a of another circuit board 1 arranged at a position separated from the circuit board 1 having the failed optical component, the optical fiber 3 can be arranged neatly by the guide convex portion 8. .
[0067]
In the case where the extra length processing tool 4 is disposed at a position on the back side of the circuit board 1 as in the first embodiment, the guide projection 8 for passing the optical fiber is connected to each circuit board 1 of the concentrator. May be provided below. In this case, on the front side of the housing 2, at a position corresponding to each circuit board 1, a first guide convex portion whose longitudinal direction is up and down, and a second guide convex portion whose longitudinal direction is front and rear. Are provided, and one or more of the optical fibers 3 pulled out from the insertion passage 23 are hooked on the first guide convex portion to perform the crossover, and further, the middle of the optical fiber is guided by the second guide. One end of the optical fiber 3 is hooked on the convex portion and corresponds to another extra length processing tool 4 and a circuit board 1 corresponding to the extra length processing tool 4 at a position separated from the one extra length processing tool 4. Position.
[0068]
Since other configurations and operations are the same as those of the first embodiment, the same reference numerals are given to the same components, and the detailed description and the description of the operation and effects will be omitted.
[0069]
The extra length processing tool 4 according to the embodiment described above has two holding pieces 43 separated from each other, and the retaining means 44 is provided on the side of each holding piece 43 close to each other. The processing tool 4 may have a configuration in which, for example, a locking means 44 is provided on the side of the two holding pieces 43 far from each other, or one of the two holding pieces 43 is engaged with the side close to each other. The stopping means 44 may be provided, and the other holding piece 43 may be provided with the locking means 44 on the side far from each other. In the above-described embodiment, the number of the holding pieces 43 is two. In addition, the number of the holding pieces 43 is one, and a hook-shaped locking piece is provided at a position separated from the holding pieces 43. Of the winding part 3a is inserted and held in a holding space between the holding piece 43 and the extra length processing tool main body 41, and the other part of the winding part 3a is inserted into the locking piece and the extra length processing tool. It may be configured to be held in a space between the main body 41 and the configuration of the extra length processing tool 4 is not particularly limited.
[0070]
Embodiment 3
13 is a longitudinal sectional side view showing a configuration of a concentrator according to a third embodiment of the present invention, FIG. 14 is a rear view showing a configuration of the concentrator of the third embodiment, and FIG. FIG. 16 is a perspective view showing a state in which the excess length processing tool of the concentrator processes the excess length portion of the optical fiber.
[0071]
The line concentrator according to the third embodiment includes a storage unit 26 that stores a plurality of extra-length processing tools 4a side by side at a position on the back side of the housing unit 21 of the housing 2 and above the insertion passage 23. The insertion passage 23 is opened to the outside, and the lower side 26b of the storage section 26 is further opened.
[0072]
In the third embodiment, the storage section 26 is formed in a rectangular parallelepiped shape large enough to store the same number of extra-length processing tools 4a as the circuit board 1 in a juxtaposed manner. The rear side 26a of the storage section 26 opposite to the storage section 21 is open so that the extra length processing tool 4a can be inserted from the rear of the housing 2 to the front. Further, a lower side 26b of the storage section 26 on the insertion passage 23 side is completely open. Further, a locking rod 9 as a locking portion is provided at an upper part in the storage part 26 at a central part in the front-rear direction in parallel with the juxtaposition direction of the extra length processing tools 4a.
[0073]
A support plate 10 is provided below the rear side 26a of the storage unit 26 in parallel with the direction in which the extra length processing tools 4a are juxtaposed, and the optical fiber 3 held by each extra length processing tool 4a is provided on the support plate 10. Are provided at regular intervals.
The clamp member 11 has a fitting portion fitted and fixed in a vertical through hole formed in the support plate 10 and a rectangular clamp portion 11a connected to an upper end of the fitting portion. The portion of the optical fiber 3 is held by the portion 11a.
[0074]
FIG. 17 is a perspective view of the extra length processing tool 4a.
The extra length processing tool 4a includes an extra length processing tool main body 41 formed of a substantially square plate, two substantially U-shaped holding pieces 43 each having one end connected to the extra length processing tool main body 41, and the other end of the holding piece 43. Locking means 44 for locking the extra length processing tool main body 41, a substantially C-shaped outer peripheral wall 47 protruding from the peripheral edge of the extra length processing tool main body 41, and a projection protruding outside the outer peripheral wall 47. It has a hook-shaped locked portion 48 locked by the locking rod 9 and an inner peripheral wall 49 protruding from the center of the extra length processing tool main body 41.
[0075]
In the middle of the outer peripheral wall 47 and the inner peripheral wall 49 in the circumferential direction, the front ends thereof face each other, and flexible auxiliary holding pieces 40a and 40b are protruded in parallel with the extra length processing tool main body 41.
The holding piece 43 and the locking means 44 have the same structure as the holding piece 43 and the locking means 44 in the first embodiment, and the extra length processing tool main body 41 with which the winding part 3a is pulled out from the storage part 26 is formed. It is inserted and held in the holding space of the holding portion between the holding piece 43 and the holding piece 43.
The locked portion 48 is provided integrally with the outer peripheral wall 47 at a position above the extra length processing tool 4a.
In FIG. 14, reference numerals 12 and 13 denote power cables, one of which is a spare cable.
[0076]
In the third embodiment, similarly to the first embodiment, a plurality of optical fibers 3 corresponding to the respective circuit boards 1 are collectively wound, and the wound portion 3a is left unloaded from the storage unit 26. It is inserted and held in the holding space of the holding section between the long processing tool main body 41 and the holding piece 43. At this time, the large-diameter winding portion 3a can be held by the outer peripheral wall 47, and the small-diameter winding portion 3a can be held by the inner peripheral wall 49. The optical fiber 3 can be easily processed by one extra length processing tool 4a.
[0077]
The excess length processing tool 4a having the excess length processed is gripped at the end where the outer peripheral wall 47 of the excess length processing tool main body 41 is not provided, inserted into the storage unit 26 from the rear of the housing 2, and engages the locked portion 48. It can be stored in the storage section 26 by being locked to the stop rod 9.
[0078]
As shown in FIG. 15, the total number of stored extra length processing tools 4a is, for example, one less than the maximum storage number, and one circuit board 1 in which the optical fiber 3 is not connected to the connection part 1a occurs. When the concentrator is used in this state, the number of optical fibers 3 is newly increased, and this optical fiber 3 is connected to the unused connection portion 1a of the one circuit board 1 and the extra length processing is performed. When performing the operation, the optical connector 5 coupled to one end of each optical fiber 3 is inserted into the insertion passage 23 of the housing 2, pulled out from the insertion passage 23 to the front side of the circuit board, and each optical connector 5 is connected to the circuit. Each of them is individually connected to the connection portion 1a of the substrate 1. The extra length portions of the plurality of optical fibers 3 generated by this connection are wound around the holding portion of the extra length processing tool 4a outside the storage portion 26, and the extra length processing device 4a is stored in the storage portion 26.
[0079]
In the third embodiment, since the storage section 26 is provided at a position above the insertion path 23 and the insertion path 23 is opened to the outside, the storage section 26 can be inserted without being disturbed by the storage section 26. The optical fiber 3 can be easily inserted into the insertion passage 23 by utilizing the space between the optical fiber 3 and the passage 23.
[0080]
Further, since the lower side 26b of the storage unit 26 is open, the extra length processing tool 4a is stored in a narrow storage space, for example, when only one storage space for the extra length processing tool 4a remains in the storage unit 26. When the extra length processing is performed, each optical connector 5 of the plurality of optical fibers 3 having the bulky optical connector 5 at one end thereof is inserted from the lower opening of the storage section 26 without passing through the narrow storage space. It can be easily inserted into the passage 23. Further, even after the extra length processing tool 4a holding the wound optical fiber 3 is stored, the optical fiber 3 can be accessed at the lower opening of the storage section 26 to adjust the winding state.
[0081]
Moreover, the storage portion 26 is provided with a locking rod 9 as a locking portion, and the locked portion 9 of the extra length processing tool 4a is locked to the locking rod 9. The extra length processing tool 4a can be easily stored.
[0082]
In addition, since the locking rod 9 as a locking portion is provided in parallel with the direction in which the extra length processing tools 4a are juxtaposed, when the extra length processing tool 4a is inserted into the storage unit 26 or taken out from the storage unit 26. At this time, the extra length processing tool 4a already stored can be moved in the left-right direction along the locking rod 9, and the extra length processing tool 4a can be easily inserted and removed.
[0083]
Further, since the outer peripheral wall 47 protrudes from the peripheral edge of the extra length processing tool main body 41 made of a plate, the extra length processing tool 4a is capable of moving the wound portion 3a of the optical fiber 3 held by the extra length processing tool 4a outward. It can be protected by the peripheral wall 47.
Since other configurations and operations are the same as those of the first embodiment, the same reference numerals are given to the same components, and the detailed description and the description of the operation and effects will be omitted.
[0084]
In the configuration in which the hook-shaped locked portion 48 is locked to the locking rod 9 as the locking portion as in the third embodiment, the locked portion 48 is prevented from coming off from the locking portion. It may be configured to include one or both of a slippage prevention unit and a swing prevention unit that prevents the excess length processing tool 4a from swinging. The detachment prevention means and the swing prevention means can be detached, for example, in the vicinity of the locking rod 9 and have a rod member attached in parallel with the locking rod 9, or the locked part 48 is locked to the locking part. At this time, the plate spring is configured to have a leaf spring that comes into contact with the extra length processing tool 4a and bends and elastically recovers after being locked, and is not particularly limited to this configuration.
[0085]
Embodiment 4
FIG. 18 is a vertical sectional side view showing the configuration of the concentrator according to the fourth embodiment of the present invention.
In the line concentrator according to the fourth embodiment, two locking rods 9 and two locked parts 48 are provided as locking parts, and each extra length processing tool 4a is supported at two points.
[0086]
In the fourth embodiment, the locking rod 9 and the locked portion 48 are spaced apart in the insertion direction of the extra-length processing tool 4a, in other words, in the front-back direction of the housing 2.
[0087]
In the fourth embodiment, the extra length processing tool 4a is supported at two points by locking each locked portion 48 to each locking rod 9, and the extra length processing tool 4a is stored in the storage section 26. Since the swing can be prevented, in the case of the communication optical fiber, the influence of the communication failure or the like due to the swing of the extra length processing tool 4a can be eliminated.
Since other configurations and operations are the same as those of the first and third embodiments, the same components are denoted by the same reference numerals, and the detailed description and the description of the effects are omitted.
[0088]
Embodiment 5
FIG. 19 is a vertical sectional side view showing the configuration of the concentrator according to the fifth embodiment of the present invention.
The line concentrator according to the fifth embodiment includes a storage unit 26 that stores a plurality of extra-length processing tools 4a side by side at a position on the back side of the storage unit 21 of the housing 2 and below the insertion passage 23. The insertion passage 23 is opened to the outside, and the upper side 26c of the storage section 26 is further opened.
[0089]
In the fifth embodiment, the storage section 26 is formed in a rectangular parallelepiped shape large enough to store the same number of extra-length processing tools 4a as the circuit board 1 in a side-by-side manner. The rear side 26a of the storage section 26 opposite to the storage section 21 is open so that the extra length processing tool 4a can be inserted from the rear of the housing 2 to the front. Further, an upper side 26c of the storage section 26 on the insertion passage 23 side is completely open. Further, the locking rod 9 is not provided.
[0090]
The extra length processing tool 4a has a substantially C-shaped outer peripheral wall 47 protruding from a peripheral surface except for a lower portion when stored in the storage portion 26, and the locked portion 48 is provided on the outer peripheral wall 47. There is no configuration. When the extra length processing tool 4 a is stored in the storage section 26, the outer surface of the outer peripheral wall 47 contacts and is supported by the bottom surface of the storage section 26.
[0091]
In the fifth embodiment, the storage section 26 is provided at a position below the insertion path 23 and the insertion path 23 is opened to the outside. The optical fiber 3 can be easily inserted into the insertion passage 23 by utilizing the space between the insertion passage 23 and the insertion passage 23.
[0092]
Further, since the upper side 26c of the storage unit 26 is opened, the extra length processing tool 4a is stored in a narrow storage space, for example, when only one storage space for the extra length processing tool 4a remains in the storage unit 26. When the extra length processing is performed, each of the optical connectors 5 of the plurality of optical fibers 3 having the bulky optical connector 5 at one end thereof does not pass through a narrow storage space, and the insertion passage 23 extends from the upper open portion of the storage portion 26. Can be easily inserted into Further, even after the excess length processing tool 4a holding the wound optical fiber 3 is stored, the optical fiber 3 can be accessed at the upper opening of the storage unit 26 to adjust the winding state.
In the fifth embodiment, the configuration of the fourth embodiment may be adopted.
Since other configurations and operations are the same as those of the first and third embodiments, the same components are denoted by the same reference numerals, and the detailed description and the description of the effects are omitted.
[0093]
Embodiment 6
FIG. 20 is a vertical sectional side view showing the configuration of the line concentrator according to the sixth embodiment of the present invention.
The line concentrator according to the sixth embodiment includes a plurality of the plurality of concentrators located on the back side of the housing 21 of the housing 2 and at a position rearward with respect to the insertion passage 23, in other words, at a position separated rearward from the insertion passage 23. A storage section 26 for storing the extra length processing tools 4a side by side is provided, the insertion passage 23 is opened to the outside, and a lower side 26b of the storage section 26 is opened.
[0094]
In the sixth embodiment, the storage section 26 is formed in a rectangular parallelepiped shape large enough to store the same number of extra-length processing tools 4a as the circuit board 1 in a juxtaposed manner. The rear side 26a of the storage section 26 opposite to the storage section 21 is open so that the extra length processing tool 4a can be inserted from the rear of the housing 2 to the front. Further, a lower side 26b of the storage section 26 on the insertion passage 23 side is completely open. In addition, a locking rod 9 is provided at an upper part in the storage part 26 at a central part in the front-rear direction in parallel with the juxtaposition direction of the extra length processing tools 4a.
[0095]
In the sixth embodiment, since the storage section 26 is provided at a position rearward of the insertion path 23 and the insertion path 23 is opened to the outside, the storage section 26 is not obstructed by the storage section 26. The optical fiber 3 can be easily inserted into the insertion passage 23 by utilizing the space between the insertion passage 23 and the insertion passage 23.
[0096]
Further, since the lower side 26b of the storage unit 26 is open, the extra length processing tool 4a is stored in a narrow storage space, for example, when only one storage space for the extra length processing tool 4a remains in the storage unit 26. When the extra length processing is performed, each optical connector 5 of the plurality of optical fibers 3 having the bulky optical connector 5 at one end thereof is inserted from the lower opening of the storage section 26 without passing through the narrow storage space. It can be easily inserted into the passage 23. Further, even after the extra length processing tool 4a holding the wound optical fiber 3 is stored, the optical fiber 3 can be accessed at the lower opening of the storage section 26 to adjust the winding state.
[0097]
In the above-described sixth embodiment, the lower side 26b of the storage unit 26 is opened, but the upper side 26c of the storage unit 26 may be opened without opening the lower side 26b of the storage unit 26. Alternatively, the lower side 26b and the upper side 26c of the storage section 26 may be opened.
Further, also in the sixth embodiment, the configuration of the fourth embodiment may be adopted.
Since other configurations and operations are the same as those of the first and third embodiments, the same components are denoted by the same reference numerals, and the detailed description and the description of the effects are omitted.
[0098]
In the third, fourth, fifth, and sixth embodiments described above, the lower side 26b or the upper side 26c of the storage unit 26 is completely opened, but in addition, the lower side 26b and the upper side 26c May be configured such that a part of a position where the user can easily take out the storage unit 26 from the outside is opened.
[0099]
In the third, fourth, and sixth embodiments described above, the locking rod 9 as the locking part is provided in parallel with the direction in which the extra length processing tools 4a are juxtaposed. 26 may be provided on the back side. In addition, the locking portion may be a single rod, or may be a plurality of locking members arranged at positions corresponding to the respective excess length processing tools 4a, and the configuration of the locking portion is not particularly limited.
[0100]
【The invention's effect】
As described above in detail, according to the first aspect, since the excess length processing tool has a holding portion for holding a wound portion around which a plurality of optical fibers are wound, the excess length processing tool is smaller than the number of optical fibers. Can be reduced, the storage space for storing the extra length processing tool can be reduced, and the entire concentrator can be made smaller for the number of optical fibers.
[0101]
According to the second aspect, since the extra length processing tool is arranged at a position opposite to the position where the circuit board is inserted into and removed from the circuit board, a storage space for storing the extra length processing tool is provided in the circuit board. It is not necessary to provide the optical fiber above the substrate, and the entire concentrator can be made lower for the number of optical fibers.
[0102]
According to the third aspect, since the optical fiber that has been wound by the extra length processing tool can be disposed in the insertion path, the extra length of the optical fiber can be shortened.
[0103]
According to the fourth aspect, since the circuit board side of the insertion path is lower than the extra length processing tool side, the optical fiber can be easily pulled out from the insertion path.
[0104]
According to the fifth aspect, a closed loop holding space can be formed between the extra length processing tool main body and the holding piece. Therefore, even when a plurality of optical fibers are wound collectively, this winding is performed. The portion can be retained by releasing the retaining piece by the retaining means and inserting the retaining piece into the retaining space, so that the plurality of optical fibers can be easily retained in the extra length processing tool.
[0105]
According to the sixth aspect, between the extra length processing tool main body and the holding piece, the outer peripheral side holding portion in which the outer peripheral side of the wound portion of the optical fiber contacts, and the inner peripheral side holding in which the inner peripheral side of the wound portion comes into contact With such a configuration, it is possible to easily process a plurality of optical fibers having different lengths of the extra length portion with one extra length processing tool.
[0106]
According to the seventh aspect, since the wound portion of the optical fiber can be inserted into the holding space from the mutually adjacent sides of the plurality of holding spaces formed at the separated positions, the holding piece can be locked by the locking means. When the wound portion of the optical fiber is inserted into the holding space in the released state, the wound state of the wound portion can be maintained by the elastic restoration of the wound portion of the optical fiber, and furthermore, the wound portion is obstructed by the wound portion. The operation of the locking means can be performed without being performed.
[0107]
According to the eighth aspect, since the plurality of guide projections are provided below the circuit board, the optical fibers can be arranged neatly when the optical fibers are crossed.
[0108]
According to the ninth aspect, the storage section for storing a plurality of extra-length processing tools in a juxtaposed manner by inserting them from the rear to the front of the housing is disposed above, below, or behind the insertion path. In addition, since the insertion path is open to the outside, the optical fiber can be easily inserted into the insertion path by using the space between the storage section and the insertion path without being obstructed by the storage section.
[0109]
According to the tenth aspect, since at least one of the upper side and the lower side of the storage unit is open, when the storage space for the extra length processing tool is left in the storage unit by one, the extra length processing tool is used. When storing in a small storage space and performing extra length processing, the upper or lower side of the storage unit is opened without passing each optical connector of a plurality of optical fibers having a bulky optical connector at one end through the narrow storage space. It can be easily inserted into the insertion passage from the part. In addition, even after the excess length processing tool holding the wound optical fiber is stored, the optical fiber can be accessed at the upper or lower opening of the storage unit to adjust the winding state.
[0110]
According to the eleventh aspect, the extra length processing tool can be stored by locking the locked portion of the extra length processing tool to the locking portion, so that the extra length processing tool can be easily stored. .
[0111]
According to the twelfth aspect, since a plurality of optical fibers can be wound around one processing tool for processing, the number of times of processing the excess length can be reduced as compared with the number of optical fibers, and the excess length processing can be performed. Workability can be improved.
[0112]
According to the thirteenth aspect, since a plurality of optical fibers are collectively wound and the wound portion is held by the extra length processing tool, the number of extra length processing can be further reduced as compared with the number of optical fibers. Workability of long processing can be further improved.
[0113]
According to the fourteenth aspect, since the large-diameter winding portion and the small-diameter winding portion are held by the extra length processing tool, the workability of extra length processing of a plurality of optical fibers having different extra length portions is improved. it can.
[0114]
According to the fifteenth aspect, when the extra length processing tool is inserted into the storage unit, the extra length processing tool can be stored in the storage unit without generating a new extra length. Further, when pulling out the extra length processing tool from the storage section to the outside of the storage section, the extra length processing tool can be pulled out without hitting the optical fiber.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a line concentrator according to a first embodiment of the present invention, and is a perspective view with a part thereof omitted.
FIG. 2 is a vertical sectional side view of the concentrator according to the present invention.
FIG. 3 is a front view of the concentrator according to the present invention.
FIG. 4 is a perspective view showing a state where the concentrator according to the present invention is mounted on a gantry.
FIG. 5 is a perspective view showing a part of the rear side of the concentrator according to the present invention.
FIG. 6 is a perspective view showing a state in which the excess length processing tool of the concentrator according to the present invention has processed the excess length portion of the optical fiber.
FIG. 7 is a perspective view of a surplus processing tool of the concentrator according to the present invention.
FIG. 8 is a cross-sectional view of the excess length processing tool of the concentrator according to the present invention.
FIG. 9 is a perspective view showing a state before the wound portion of the optical fiber is held by the excess length processing tool.
FIG. 10 is a perspective view showing an operation of storing an excess length processing tool that has processed an excess length portion of an optical fiber.
FIG. 11 is a front view showing a configuration of a line concentrator according to a second embodiment of the present invention.
FIG. 12 is a longitudinal sectional side view showing a configuration of a line concentrator according to a second embodiment of the present invention.
FIG. 13 is a longitudinal sectional side view showing a configuration of a line concentrator according to a third embodiment of the present invention.
FIG. 14 is a rear view illustrating a configuration of a line concentrator according to a third embodiment of the present invention.
FIG. 15 is a perspective view showing, on an enlarged scale, a part of the rear side of a line concentrator according to a third embodiment of the present invention.
FIG. 16 is a perspective view showing a state in which the excess length processing tool of the third embodiment of the concentrator according to the present invention has processed the excess length portion of the optical fiber.
FIG. 17 is a perspective view of a surplus processing tool according to a third embodiment of the concentrator according to the present invention.
FIG. 18 is a vertical sectional side view showing a configuration of a line concentrator according to a fourth embodiment of the present invention.
FIG. 19 is a vertical sectional side view showing a configuration of a line concentrator according to a fifth embodiment of the present invention.
FIG. 20 is a vertical sectional side view showing a configuration of a line concentrator according to a sixth embodiment of the present invention.
[Explanation of symbols]
1 circuit board
1a Connection
2 Housing
23 Insert passage
26 Storage
26b lower side
26c upper side
3 Optical fiber
3a winding part
4,4a Extra length processing tool
41 Extra processing tool body
43 Holding piece
44 Locking means
45a Outer side holding part
45b Inner circumference holding part
48 Locked part
8 Guide convex
9 Locking rod (locking part)

Claims (15)

A plurality of circuit boards having a plurality of connection parts, a housing accommodating the circuit boards side by side, and a plurality of optical fibers having one ends connected to the connection parts and a part of which is fixed in a longitudinal direction thereof A surplus processing tool that winds the surplus portion of the surplus length processing, and a concentrator that collects a plurality of optical fibers processed by the surplus processing tool on the circuit board, wherein the surplus processing tool is A concentrator having a holding portion for holding a wound portion around which a plurality of optical fibers are wound. The line concentrator according to claim 1, wherein the circuit board is detachable, and the extra length processing tool is disposed at a position opposite to a position where the circuit board is inserted and removed with respect to the circuit board. 3. The concentrator according to claim 2, wherein the circuit board is insertable / removable in front of the housing, and the housing has an optical fiber insertion path above or below the circuit board. 4. The line concentrator according to claim 3, wherein the insertion path is lower on the circuit board side than on the extra length processing tool side. 5. The extra length processing tool main body, one end thereof is continuous with the extra length processing tool main body, a holding piece that holds the winding portion between the extra length processing tool main body, 3. The line concentrator according to claim 1, further comprising: locking means for locking the other end to the extra length processing tool main body. An outer peripheral side holding portion in which an outer peripheral side of the wound portion of the optical fiber is in contact with the extra length processing tool main body and a holding piece, and an inner peripheral side holding portion in which the inner peripheral side of the wound portion is in contact. Item 6. The concentrator according to Item 5. 7. The concentrator according to claim 5, wherein the holding pieces are plural, each holding piece is disposed at a position separated from the extra length processing tool main body, and the locking means is provided on a side close to each holding piece. 8. apparatus. The circuit board can be inserted and removed in front of the housing, and a plurality of guide protrusions for guiding optical fibers in the juxtaposition direction in which the circuit boards are juxtaposed above or below the circuit board in the juxtaposition direction. The concentrator according to any one of claims 1 to 4, wherein the concentrator is provided at a distance from the line. A plurality of extra-length processing tools are provided, and the housing has a storage unit that stores the extra-length processing tools side by side by inserting the respective extra-length processing tools from the rear to the front of the housing. 5. The line concentrator according to claim 3, wherein the line concentrator is disposed above, below, or behind the insertion path. The concentrator according to claim 9, wherein the storage unit has at least one of an upper side and a lower side opened. 11. The storage device according to claim 10, wherein the storage portion has a locking portion for locking each extra length processing tool, and each extra length processing tool has a locked portion to be locked to the locking portion. Concentrator. One end is connected to a plurality of circuit boards housed side by side in the housing part of the housing having a housing part, and the extra lengths of the plurality of optical fibers having a part fixed in the longitudinal direction are extra lengths. In the optical fiber excess length processing method of processing the excess length by the processing tool, the housing has a storage unit for storing the excess length processing tool side by side, winding the excess length portion of the plurality of optical fibers, An optical fiber excess length processing method, comprising: holding the wound portion by the excess length processing tool; and inserting the excess length processing tool into the storage section. 13. The optical fiber excess length processing method according to claim 12, wherein a plurality of optical fibers are collectively wound, and the wound portion is held by an excess length processing tool. An optical fiber having a longer surplus length is wound around a large diameter, an optical fiber having a shorter surplus length is wound around a small diameter, and the large diameter winding portion and the small diameter winding portion are extra length. 14. The optical fiber excess length processing method according to claim 12, wherein the optical fiber is held by a processing tool. 13. The wound portion of the optical fiber rotates when the extra length processing tool is inserted into the storage section from outside the storage section or when the extra length processing tool is pulled out of the storage section outside the storage section. 15. The method for processing an extra length of an optical fiber according to any one of items 14 to 14.

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