JPH1172628A - Bobbin for winding optical fiber - Google Patents

Abstract

PROBLEM TO BE SOLVED: To relieve tension without damaging a long-sized optical fiber in spite of coiling of to a small diameter of the same by winding the optical fiber in the state of inserting two pieces of pins into grooves, then first removing the pins on the inner side not in contact with the optical fiber, then removing the outer pins in contact with the optical fiber. SOLUTION: The diameter D2 of a drum 11 of a bobbin 10 is 60 mm and four pieces of the grooves 12 which are formed to an approximately elliptic shape in section and are narrowed in apertures are formed axially at 90 deg. intervals on this drum. Two pieces of the columnar pins 14, 15 are lined up and inserted in the diametral direction of the drum 11 in each groove 12. These pins are so inserted that the outer pins 15 are pressed by the inner pins 14 and are partially protruded to the outer side of the drum 11. The drum 11 diameter D1 expanded by the insertion of the pins 14, 15 is 62 mm. The spacing between collars 13 is 25 mm. After the optical fiber 5 is coiled, the inner pins 14 are first removed. When the outer pins 15 are removed thereafter, the outer pins 15 may be removed without rubbing the optical fiber 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bobbin for winding an optical fiber in which the optical fiber is coiled with low tension.

[0002]

2. Description of the Related Art An optical fiber device using an optical fiber as a device is widely used in applications such as sensors. In recent years, Er-doped optical fibers (ED
Optical fiber devices have received attention as optical amplifiers using F), dispersion compensators using dispersion compensating optical fibers, or nonlinear optical devices. Since the optical fiber device is composed of an optical fiber, it has good coupling with a transmission line and other devices, has stable characteristics, and is known as an excellent device. As described above, the optical fiber type device has the advantage of good coupling properties, but has the disadvantage that the longer the required fiber length, the larger the volume. This disadvantage is avoided by winding a coil around a small-diameter bobbin. However, when the coil is wound to a small diameter, the winding thickness increases, and even if the coil is wound with a low tension, a large winding tension is generated inside the coil, that is, near the bobbin trunk. It is generally known that when a large force is applied to an optical fiber from the side, the loss increases. Therefore, when a long optical fiber is wound around a small bobbin, the loss increases, and the function as an optical fiber type device may be lost.

To avoid this, the outer shape of the bobbin
Techniques for changing the shape are known. For example, FIG.
As shown in (a) and (b), on the surface of the cylindrical body 2,
A groove 3 having a semicircular cross section is provided in the axial direction.
Part of the Japanese pin 4 protrudes from the outer periphery of the body 2
insert. Then, the winding diameter of the coil of this bobbin 1
D ₁Is the outer diameter D of the body 2_TwoSlightly larger than In groove 3
The optical fiber 5 was coil-wound with the coil 4 inserted.
Later, when the pin 4 is pulled out, the tension inside the coil is reduced.
Thus, an increase in the loss of the optical fiber 5 can be prevented. Koi
The greater the tension applied to the
The effect of taking is great.

[0004]

However, when a large winding tension is applied to the coil, the optical fiber 5
There are the following problems in extracting the pin 4 that contacts the. That is, if the tension is too large, the optical fiber 5 may be damaged due to friction with the pin 4 if the pin 4 does not come off or even if the pin 4 comes off.

An object of the present invention is to provide a bobbin for winding an optical fiber, which can relieve the tension without damaging the optical fiber even if the long optical fiber is wound into a coil with a small diameter.

[0006]

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems, and in a bobbin including a flange and a body, one or a plurality of grooves whose openings are narrowed in the axial direction of the body. In the groove, a pin having a shape protruding outward from the opening and a pin holding the pin so as to protrude from the opening are inserted so that the optical fiber can be removed after the optical fiber is wound around the bobbin. It is characterized by the following.

According to the present invention, since the opening of the groove is narrowed, the pin inserted into the groove does not fall out of the groove. Then, after coiling the optical fiber with two pins inserted into the groove, first the inner pin not in contact with the optical fiber is pulled out, and then the outer pin in contact with the optical fiber is pulled out. Therefore, when pulling out the outer pin, the outer pin is not pressed toward the optical fiber by the inner pin,
The contact pressure with the optical fiber is almost eliminated, and damage to the optical fiber due to friction can be prevented.

[0008]

Embodiments of the present invention will be described below in detail with reference to the drawings. 1A and 1B are a plan view and an AA sectional view of an embodiment of an optical fiber winding bobbin according to the present invention, respectively. In Figure 1, the diameter D ₂ of the body 11 of the bobbin 10 is 60 mm,
Four grooves 12 having a substantially elliptical cross section and a narrow opening are formed in the axial direction at 90 ° intervals. In each groove 12,
Two cylindrical pins 14 and 15 are inserted side by side in the radial direction of the body 11, and the outer pin 15 is pressed by the inner pin 14 and inserted so as to partially protrude outside the body 11. I have. Barrel diameter D ₁ which is expanded by inserting the pins 14 and 15 is 62 mm. In addition, 13 is a collar. The interval W between the flanges 13 is 25 mm. An optical fiber 5 having an outer diameter of 250 μm was wound around the bobbin 10 having the pins 14 and 15 in a coil shape with a tension of 10 gf. The optical fiber 5 needs to be wound with low tension to minimize the loss.
The tension f is a low limit tension that does not cause collapse during coil winding. After coiling the optical fiber 5 in this way, first, the inner pin 14 was pulled out, and then the outer pin 15 was pulled out. The outer pin 15 could be pulled out without rubbing the optical fiber 5. For the length of the optical fiber 5 from 1000 m to 5000 m,
When the light loss of the coil from which 4, 15 was removed was measured,
There was no change at 0.21 dB / km.

The bobbin 1 shown in FIG.
In, a coil was formed under the above conditions under the same conditions as in the above embodiment with the same trunk diameter and enlarged trunk diameter, and the pin 4 was pulled out to measure the optical loss. As a result, the fiber length 1000
For m to 3000 m, the optical loss is 0.21 dB / km
However, with the coils of 4000 m and 5000 m, the optical fiber 5 was disconnected when the pins were pulled out.

From the above results, in this embodiment,
It can be seen that the winding tension of the coil can be reduced with a longer coil length than when a conventional bobbin is used.

The shape of the pin is not limited to a columnar shape as in the above embodiment, but may be any shape that does not damage the optical fiber. As shown in FIG. 2, the outer pin 15 has a large diameter at an intermediate portion 15 a corresponding to the distance between the flanges 13, 13, so that the pin 15 does not move when the inner pin 14 is pulled out. It is more preferable to fix with.

[0012]

According to the present invention, there is an excellent effect that the winding tension of the coil of the optical fiber can be reduced without damaging the optical fiber.

[Brief description of the drawings]

FIGS. 1A and 1B are a plan view and an AA sectional view of an embodiment of an optical fiber winding bobbin according to the present invention, respectively.

FIG. 2 is a cross-sectional view of another embodiment.

FIGS. 3A and 3B are a plan view and a cross-sectional view taken along line AA of a conventional optical fiber winding bobbin, respectively.

[Explanation of symbols]

 Reference Signs List 5 optical fiber 10 bobbin 11 trunk 12 groove 13 flange 14, 15 pin 15a middle part

Claims (1)

[Claims] In a bobbin comprising a flange and a body, one or a plurality of grooves each having a narrow opening in the axial direction of the body are formed, and a pin having a shape protruding outward from the opening is formed in the groove. An optical fiber winding bobbin, wherein a pin for holding the optical fiber protruding from the opening is inserted so that the pin can be removed after the optical fiber is wound around the bobbin.