JP3540603B2 - Storage - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a storage device for storing a plurality of optical connectors attached to one end of an optical fiber together with the optical fiber so as to be able to be pulled out.
[0002]
[Prior art]
When monitoring an optical line, a technique of connecting a light source to an optical line (optical fiber) to be measured via an optical connector is adopted. At this time, there are a large number of the optical connectors for each optical line to be measured, and when the measurement is not performed, such as when not in use, the optical connectors are arranged in a storage section and are housed together with the large number of optical fibers in a storage box so as to be freely drawn out. . Further, the storage portions are arranged and formed in a predetermined plane along the drawing direction in a direction perpendicular to the drawing direction.
[0003]
At this time, a large number of optical fibers extending from each optical connector are housed in a storage box in a state of being bent in a loop shape in a direction orthogonal to the drawing direction of the optical connector.
[0004]
The plurality of optical connectors are connected to an optical line (optical fiber) to be measured by pulling out the individual optical connectors from the storage section as necessary, and monitoring the optical lines. The optical connector is housed in the housing box by being pushed into the housing section together with the optical fiber.
[0005]
However, the optical fiber generates bending elasticity when bent, and the bending elasticity causes the optical connector attached to the tip to jump out of the storage section provided in the storage box. For this reason, in the conventional storage box, a rod-shaped pressing member is provided in the direction of arrangement of the storage sections for storing the optical connectors, and the pressing member presses the plurality of optical fibers to prevent the protrusion.
[0006]
[Problems to be solved by the invention]
By the way, in the conventional storage box described above, since the pressing member is provided, when the optical connector is pulled out or pushed into the storage portion, the optical fiber rubs against the pressing member, so that it is difficult to pull out the optical connector. If the matching occurs excessively, there is a problem that the optical fiber may be broken in some cases.
[0007]
In addition, the storage box has the optical fiber curved in a loop shape in a direction perpendicular to the pull-out direction of the optical connector, but the flat surface is formed with respect to a plane formed by the pull-out direction of the optical connector and the arrangement direction of the storage portion. Therefore, there is a problem that the space is taken up in this direction because the space is not necessarily vertical and the size becomes large.
[0008]
The present invention has been made in view of the above points, and is a storage device for storing a plurality of optical connectors attached to one end of an optical fiber so as to be able to be pulled out together with the optical fiber, wherein the storage device is used when the optical connector is taken in and out. It is an object of the present invention to provide a storage device capable of minimizing the friction between the optical fibers as much as possible and reducing the size.
[0009]
[Means for Solving the Problems]
In the present invention, in order to achieve the above object, there is provided a storage device for storing a plurality of optical connectors attached to one end of an optical fiber so as to be able to be pulled out together with the optical fiber, wherein a base member and the optical connector are provided. A plurality of support members for supporting the optical connector in the vicinity thereof, a guide member arranged on the base member in a direction orthogonal to the pull-out direction of the optical connector, and a guide member for slidably guiding each of the support members in the pull-out direction; and the base member. And a fixing member for fixing the other ends of the plurality of optical fibers at at least two different heights in a plane along the drawing direction .
[0010]
Preferably, a regulation member for regulating a sliding range of each of the support members is provided on the base member.
[0011]
Also preferably, the fixing member is provided so that the plurality of optical fibers divided into a predetermined number of groups are respectively fixed at different heights between the groups .
[0012]
[Action]
Since the support member supporting the optical fiber slides along the guide member by taking the optical connector in and out, the optical fiber is smoothly taken in and out of the storage device, and the friction between the optical fibers is reduced. In particular, since the other end sides of the plurality of optical fibers are respectively fixed at at least two or more different heights in the plane along the pull-out direction by the fixing member, the optical fibers rub against each other when the optical fiber is taken in and out. Can be effectively reduced.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a storage device of the present invention will be described in detail with reference to FIGS.
[0014]
As shown in FIG. 1, the storage box 1 includes a box base 2, a plurality of support blocks 3, a plurality of guide rails 4, stoppers 5 and 6, and fixed blocks 7 and 8. A lid (not shown) is placed. However, this lid is not always necessary.
[0015]
The box base 2 is a box-shaped base having a peripheral wall 2b formed on three sides of a base 2a, and one of the remaining sides is opened, and provided with stoppers 5, 6 and fixed blocks 7, 8.
[0016]
The support block 3 supports the tape fiber 10 with the multi-core connector 10a attached to one end in the vicinity of the multi-core connector 10a, and is slidably supported by two guide rails 4. As shown in FIG. 3, two rail grooves 3a with which the guide rails 4 are engaged are formed on the side surface of the support block 3, and the tape fiber 10 is bonded to the upper surface thereof with an adhesive. Here, the support block 3 may adhere the tape fiber 10 with an adhesive such as a tape.
[0017]
Here, the support block 3 and the guide rail 4 are desirably made of plastic or the like having a small frictional resistance, or metal or wood coated with a paint for reducing the frictional resistance.
[0018]
The tape fiber 10 is an optical fiber formed by arranging a plurality of optical fibers in parallel at a predetermined pitch, coating the optical fibers, and forming a tape.
[0019]
A plurality of guide rails 4 are provided so as to span predetermined distances between stoppers 5 and 6, which will be described later.
[0020]
The stoppers 5 and 6 are arranged in parallel on the base 2 a of the box base 2 at desired intervals, and regulate the sliding range of the support block 3 that slides along the two guide rails 4. The stopper 5 has a storage space SC between the front edge of the base 2a and the storage space for storing the multi-core connector 10a, and the stopper 6 has a storage space SF for bending and storing a plurality of tape fibers 10 in a loop shape. Are formed respectively.
[0021]
The fixing blocks 7 and 8 are members for holding and fixing the tape fibers 10 supported by the plurality of support blocks 3 in groups of a predetermined number in a horizontal direction along the surface of the base 2 a of the box base 2. It is provided on the base 2 a of the base 2. As shown in FIG. 1, the fixing blocks 7 and 8 have different heights at which the plurality of tape fibers 10 grouped for each group are fixed. It goes without saying that the fixing blocks 7 and 8 need not be fixed by gripping as long as the tape fiber 10 can be fixed.
[0022]
The storage box 1 of the present invention configured as described above is used as follows.
[0023]
First, a plurality of tape fibers 10 each having a multi-core connector 10a attached to one end are grouped into a predetermined number of groups, and are held and fixed to the fixing blocks 7, 8, and the other ends are grouped together at the rear side of the box base 2. It extends from the peripheral wall 2b.
[0024]
Next, each of the plurality of tape fibers 10 is adhered to the upper surface of the support block 3 with an adhesive in the vicinity of the multi-core connector 10a, and the other end of the tape fiber 10 is placed between the fixing blocks 7, 8 and the stopper 6. Is bent in a loop shape and stored horizontally in the storage space SF along the surface of the base 2a.
[0025]
When not in use, as shown in FIG. 1, the rear portion of each multi-core connector 10a is brought into contact with the stopper 5 and retracted into the storage space SC formed between the front edge of the base 2a and the stopper 5. .
[0026]
At the time of use, such as when monitoring the optical line, when the desired multicore connector 10a is pulled out from the storage box 1 to the near side, the tape fiber 10 is pulled out along with it.
[0027]
Then, the tape fiber 10 is bonded to the upper surface of the support block 3 near the multicore connector 10a. For this reason, the support block 3 is smoothly slid toward the near side along the two guide rails 4 by being pulled by the tape fiber 10 to be pulled out, and as shown in FIG. 2, the tape fiber 10a is moved together with the multi-core connector 10a. Pulled out of the storage box 1.
[0028]
At this time, the tape fiber 10 is moved by pulling out the multi-core connector 10a, but the tape fibers 10 are grouped into a predetermined number of groups by the fixing blocks 7 and 8, and the fixed heights between the groups are different. I have. For this reason, even if the multicore connector 10a is pulled out, the tape fiber 10 can reduce rubbing between different groups, can move smoothly in the storage space SF, and there is no risk of disconnection.
[0029]
Moreover, the storage box 1 holds and fixes a plurality of tape fibers 10 in groups of a predetermined number in the horizontal direction along the surface of the base 2a of the box base 2 by holding the plurality of tape fibers by the fixing blocks 7 and 8. The storage space SF is bent in a loop shape and stored in the horizontal direction along the surface of the base 2a.
[0030]
For this reason, compared to the conventional storage box that stores a large number of optical fibers in a state of being bent in a loop shape in a direction perpendicular to the drawing direction of the optical connector, the storage box 1 has a remarkable size in the thickness direction. And the overall size can be reduced. For example, the conventional storage box has a height of 300 mm, a width of 400 mm, and a thickness of 90 mm, but the storage box 1 of the present invention has a height of 300 mm, a width of 400 mm, a thickness of 30 mm and a thickness of 1/3. Was completed.
[0031]
When the multi-core connector 10a pulled out as described above is used, it is pushed back into the storage box 1 together with the procedural plastic 10.
[0032]
Then, the support fiber 3 is pushed back while sliding along the two guide rails 4 by the operation opposite to the above, and the tape fiber 10 is bent and stored in the storage space SF. At the same time, the rear end of the multi-core connector 10a comes into contact with the stopper 5, and is retracted and stored in the storage space SC formed between the front edge of the base 2a and the stopper 5.
[0033]
Here, for example, when one rail groove 12a is formed in the lower part like the support block 12 shown in FIG. 4, the support member has one guide ridge 13a that engages with the rail groove 12a. The rail 13 can be used.
[0034]
In addition, the said embodiment demonstrated the case where the storage tool of this invention was a storage box. However, the storage device of the present invention does not need to be box-shaped as long as the optical connector attached to one end of the optical fiber can be taken in and out together with the optical fiber. For example, the base member may be a plate.
[0035]
The stoppers 5 and 6 described in the above embodiment are not necessarily required as long as the support blocks 3 and 12 can slide so as not to deviate from the guide rails 4 and 13. The fixing blocks 7 and 8 are not necessarily required if the tape fiber 10 can be bent in a loop into the storage space SF and stored in the horizontal direction along the surface of the base 2a.
[0036]
Further, in the above-described embodiment, the case of the tape fiber 10 having the multi-core connector 10a attached to one end as the optical fiber has been described. However, it goes without saying that a single-core fiber having a single-core connector attached to one end may be used. .
[0037]
【The invention's effect】
According to the first aspect of the present invention, there is provided a storage device for accommodating a plurality of optical connectors attached to one end of an optical fiber so as to be able to be pulled out together with the optical fiber. The direction in which the rubbing is reduced as much as possible and the optical fiber is bent in a loop shape is at two or more different heights in a direction parallel to a plane formed by the drawing direction of the optical connector and the arrangement direction of the storage section. Since each is formed , it is possible to provide a storage device that can be reduced in size.
[0038]
According to the second aspect of the present invention, it is possible to appropriately regulate the sliding range of the support member along the guide member when the optical connector is taken in and out.
[0039]
According to the third aspect of the present invention, a plurality of optical fibers can be grouped into groups each having a predetermined number, and can be fixed at different heights between the groups along the surface of the base member. Rubbing between the stored optical fibers can be further reduced.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of a storage device of the present invention.
FIG. 2 is a perspective view showing a use state of the storage device of FIG. 1;
FIG. 3 is a perspective view showing an engagement state between a support member and a guide member.
FIG. 4 is a perspective view showing a modified example of a support member in which a support member and a guide member are engaged.
[Explanation of symbols]
1 storage box 2 box base (base member)
3 Support block (support member)
4 Guide rail (guide member)
5,6 Stopper (Regulator)
7, 8 Fixed block (fixed member)
10 Tape fiber (optical fiber)
10a Multi-core connector (optical connector)
12 Support block (support member)
13 Guide rail (guide member)

Claims (3)

A storage device that stores a plurality of optical connectors attached to one end of an optical fiber so as to be able to be pulled out together with the optical fiber,
A base member ,
A plurality of support members for supporting the optical fibers in the vicinity of the optical connector ,
A guide member arranged in the base member in a direction orthogonal to the pull-out direction of the optical connector, and a guide member for slidably guiding each of the support members in the pull-out direction ;
A fixing member provided on the base member to fix the other end sides of the plurality of optical fibers at at least two different heights in a plane along the drawing direction . A storage tool characterized by the following. The storage device according to claim 1, wherein the base member is provided with a regulating member that regulates a sliding range of each of the support members. The storage device according to claim 1, wherein the fixing member is configured to fix the plurality of optical fibers divided into a predetermined number of groups at different heights between the groups .

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