JP3366414B2 - Optical fiber core wire screening method and apparatus - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for carrying out screening while inspecting surface conditions such as fluctuations in the outer diameter of an optical fiber core and the presence or absence of irregularities, and an apparatus used therefor.

[0002]

2. Description of the Related Art Conventionally, in the manufacture of optical fiber core wires, surface conditions such as fluctuations in outer diameter dimensions and the presence or absence of irregularities are strictly controlled, and for areas where inspection fails, Confirmation and disposal are mandatory. On the other hand, as shown in FIG. 2, in order to guarantee the strength of the optical fiber core wire 1, a so-called screening is carried out in which the pair of reels 2 is made to run while applying a predetermined tension by a screening dancer 3 or the like. It is being appreciated. And
Usually, in order to reduce the number of steps, the surface state of the optical fiber core wire is also inspected in such a screening step.

That is, a device for screening optical fiber cores is provided with a concave / convex detecting device, and while the optical fiber cores are being screened, the surface condition of the running optical fiber cores is continuously inspected by the concave / convex detecting device. Then
When a defect is detected, the screening device is temporarily stopped, and the operator manually rewinds the optical fiber core wire that has run from the time when the defect was detected until the device actually stops, and observes the surface to identify the defective part. They find it out and dispose of it.

[0004]

However, the conventional method as described above has the following disadvantages. That is, recently, in order to improve the productivity, the speeding up of screening is being advanced, and the length of the optical fiber core is considerably long from the time when the defect is detected in the optical fiber core until the device actually stops. Since the vehicle travels, there is a problem that it takes a considerable amount of time for an operator to manually unwind the optical fiber core wire to find a detection point. In addition, it is often the case that a defective portion cannot be finally confirmed, and in that case, the optical fiber core wire had to be discarded over a long length.

The present invention has been made in order to solve such a problem, and when the inspection of the surface condition such as the outer diameter variation and the unevenness of the optical fiber core wire is performed together with the screening, the unevenness of the optical fiber core wire is obtained. Provided is a method for screening an optical fiber core wire and a device used therefor capable of easily confirming a defective portion of a surface state such as, for example, in a short time, and thereby minimizing a waste strip length. The purpose is to

[0006]

SUMMARY OF THE INVENTION A method of screening an optical fiber according to the present invention comprises a delivery device to a winding device.
In a method of screening an optical fiber core wire in which a predetermined tension is applied to a traveling optical fiber core wire between a pair of reels , a defect detection method is provided near the traveling optical fiber core wire.
Steps are arranged, and the surface condition of the running optical fiber core wire is continuously inspected by the defect detecting means to detect the defect.
When the means detects a surface defect of the optical fiber core wire,
The running of the optical fiber core wire is stopped, the length of the optical fiber core wire that has run from the time of defect detection to the stop of running is detected, and then the length of the detected fiber length is sent from the winding device.
It is detected back to the issuing device winding the optical fiber
The defective portion is returned to the position where the defective portion is detected .

The optical fiber core screening apparatus of the present invention is for screening an optical fiber core that applies a predetermined tension between a pair of reels on the optical fiber core running from the feeding device to the winding device. in the device, the
Disposed in the vicinity of the traveling optical fiber, inspecting the surface condition of the traveling optical fiber, a defect detecting means for detecting the defective, the defect detection by the defect detecting means of the optical fiber means for detecting the fiber length of optical fiber that travels up travel stop, failure detected by rewinding the optical fiber to the detected fiber length amount corresponding transmitted from the winding device to device Where the defect is detected
And a rewinding means for returning to a retracted position .

[0008]

In the method of the present invention, from the detection of the surface condition of the running optical fiber core wire to the detection of the length of the running optical fiber core wire until the running of the optical fiber core wire is actually stopped, Since the optical fiber core wire is rewound by the detected strip length, it becomes easy to identify the defective portion of the optical fiber core wire, and the defective portion can be confirmed easily and in a short time. Further, this makes it possible to suppress the discarded portion of the optical fiber core wire to a necessary minimum.

By using the screening apparatus of the present invention, the above-described method of screening an optical fiber core wire can be effectively performed. That is, when the defective state of the surface state of the running optical fiber core is detected by the defect detecting means, and the traveling of the optical fiber core is stopped here, the running length during this period, that is, from the time of detecting the defect of the optical fiber core The running length until the optical fiber core is actually stopped is detected, and the optical fiber core is rewound by the core rewinding means by the detected length. As a result,
Since the defective portion returns to the position of the defective detecting means, the defective portion can be easily found by observing the vicinity thereof.

[0010]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram schematically showing the construction of an optical fiber core screening apparatus used in an embodiment of the present invention.

In FIG. 1, reference numerals 4 and 5 respectively denote a feeding device and a winding device of an optical fiber core wire 6 to be screened, and a pair of reels (capstans) 7a and 7b are provided between these devices. An optical fiber core wire 6 which is arranged so as to face each other, and in which a tension load device 8 composed of a screening dancer or the like is arranged between the reels 7a and 7b so as to continuously run between the reels 7a and 7b.
Then, the set tension is applied. Further, a measuring means (not shown) is attached to one reel 7a, and the length of the optical fiber core wire 6 passing through this reel 7a can be detected by measuring the number of rotations of the reel 7a. ing. Further, the measuring means is connected to the strip length storage device 9 so that the detected strip length is stored.

On the other hand, between the reel 7b and the winding device 5, there is provided an unevenness detecting device 10 for detecting unevenness on the surface of the optical fiber core wire 6 and outputting a detection signal thereof. The feeding device 4 and the winding device 5 receive the detection signal output from the unevenness detecting device 10 to automatically stop the driving of the feeding device 4, the winding device 5 and the reels 7a and 7b, and then , As a rewinding mechanism for rotating the optical fiber core wire 6 from the winding side to the sending side by rotating the optical fiber core 6 in the reverse direction as indicated by the broken line arrow in the drawing.
It also has Noh . The rewinding mechanism is also connected to the strip length storage device 9, and only the strip length that has traveled until the drive of the feeding device 4 etc. actually stops after the irregularity detection device 10 detects the irregularities on the surface. The optical fiber core wire 6 is rewound. In FIG. 1, reference numerals 11 and 12 denote a delivery bobbin and a take-up bobbin mounted on the delivery device 4 and the winding device 5, respectively, and further, 13 is a guide reel, 14 is a presser belt, and 15 is a dancer. Is shown.

As the above-mentioned unevenness detecting device 10,
For example, a device configured to project a certain amount of light onto the optical fiber core wire 6 and detect a change in the amount of passing light to detect the presence or absence of surface irregularities is used.

In the thus constructed screening device, the optical fiber core wire 6 is sent by the sending device 4 from the bobbin 11, and the tension load device 8 is provided between the pair of reels 7a and 7b arranged opposite to each other. After being run while being loaded with a predetermined tension by the above, it is wound on the winding bobbin 12 of the winding device 5. During this time, the running length of the optical fiber core wire 6 is continuously measured by the measuring means attached to the reel 7a, and at the same time, the unevenness detection device 10 inspects the optical fiber core wire 6 for the presence or absence of unevenness. Has been done.
When the unevenness detecting device 10 detects the unevenness on the surface of the optical fiber core wire 6, the unevenness detecting device 10 immediately
Detection signal from the output to mechanism and Jocho storage device 9 rewind, optical fiber running of core wire 6 is automatically stopped, and then strip the optical fiber 6 which travels up travel stop from the detection of irregularities long is output from the fiber length storage device 9 to rewind mechanism, and more rewinding Organization, the fiber length amount corresponding optical fiber 6 that is unwound.

In this way, the optical fiber core wire 6 in which the unevenness of the surface is detected is automatically rewound by the length of the running track from the detection of the unevenness to the stop of the running.
At the position of 0, it is possible to quickly find the unevenness occurrence portion visually. In addition, since the defective portion of the optical fiber core wire 6 can be easily and surely found in this way, it is not necessary to dispose of a wide area up to a portion having a good surface, and the cause of the defective occurrence can be investigated and solved. Can be carried out promptly. Further, since the same optical fiber core wire 6 can be repeatedly subjected to such screening as many times as possible, it is possible to eliminate malfunction of the unevenness detection device 10 and detect a defective portion with high reliability.

[0017]

As described above, according to the screening method and apparatus of the present invention, the traveling of the optical fiber core wire from the detection of the surface state defect to the traveling of the optical fiber core wire is actually stopped. The length of the optical fiber core wire is detected, and the optical fiber core wire is rewound by the detected length. Therefore, it is easy to identify the defective portion of the optical fiber core wire, and the defective portion can be easily and shortened. You can check in time. Further, this makes it possible to suppress the discarded portion of the optical fiber core wire to a necessary minimum.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing an optical fiber core screening apparatus according to an embodiment of the present invention.

FIG. 2 is a diagram schematically showing a screening method for optical fiber cores.

[Explanation of symbols]

4 ………… Sending device 5 ... Winding device 6 ... Optical fiber core 7a, 7b ... Reel 8 ... Tension load device 9 ... Article length storage device 10 ...- Concavo-convex detection device

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-7-189016 (JP, A) JP-A-5-310439 (JP, A) JP-A-3-53145 (JP, A) (58) Field (Int.Cl. ⁷ , DB name) G01N 21/89-21/892 G01M 11/00 G02B 6/00 356 C03B 37/12

Claims (2)

(57) [Claims] 1. A method of screening an optical fiber core wire, wherein a predetermined tension is applied between a pair of reels on the optical fiber core wire running from a delivery device to a winding device, in the vicinity of the running optical fiber core wire. Defect detection means
The defect detection means continuously inspects the surface state of the running optical fiber core wire, and the defect detection means
When detecting a surface defect of the optical fiber, to stop the running of the optical fiber, run from defect detection
Detects the length of the optical fiber core that has run before the line stops ,
Then, the amount of the detected strip length is fed from the winding device.
Defects detected by rewind the optical fiber to the location
A method of screening an optical fiber core wire, which comprises returning a portion to a position where the defect is detected . 2. A screening device for an optical fiber core , wherein a predetermined tension is applied between a pair of reels on an optical fiber core running from a delivery device to a winding device, in the vicinity of the running optical fiber core. disposed, the traveling inspecting the surface condition of the optical fiber, a defect detecting means for detecting the defective optical fiber travels before running stop of the optical fiber from the defect detection by the defect detecting means means for detecting the fiber length of the core wire, the detected fiber length amount corresponding winding sent from the device the defective the detected defective portion by rewinding the optical fiber to the device test
And a rewinding means for returning to the ejected position .