JP2019185067A - Coating remover - Google Patents

Abstract

To provide a coating remover of an optical fiber capable of suppressing positional deviation of the optical fiber from a coating removal blade.SOLUTION: A coating remover 1 comprises a base part 2 and a lid part 4, for removing coating of an optical fiber having a glass fiber coated with coating by making the lid part 4 and the base part 2 overlap through the optical fiber. The base part 2 and the lid part 4 are formed of resin and have at least a pair of coating removal blades having a base front blade portion 25A provided in the base part 2 and a lid front blade portion 45A provided in the lid part 4. The base part 2 has a V groove 26a holding the optical fiber at one or both of the front and rear in the longer direction of the optical fiber with respect to the base front blade portion 25A. The lid part 4 has a V groove 46a holding the optical fiber. The V groove 46a is provided at the side where the V groove 26a is provided at the front or rear in the longer direction with respect to the lid front blade portion 45A in the state of overlapping the lid part 4 and the base part 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a coating removing tool for removing a coating such as a cord.

  2. Description of the Related Art A coating removal tool that removes an optical fiber coating is known (see, for example, Patent Documents 1 and 2).

Japanese Patent Laid-Open No. 2006-80788 International Publication No. 2012/133568 Pamphlet

  In a coating remover that removes the coating of an optical fiber covered with a glass fiber coating, if the position of the optical fiber with respect to the blade portion is shifted, the coating may not be completely removed or the glass fiber may be damaged. is there. For example, in the coating removal tool described in Patent Document 1, a guide hole is provided at the end of the support column in front of the coating removal tool. Further, a first sandwiching pair and a second sandwiching pair that function as a coating removal blade are provided between the optical fiber holder and the guide hole. Then, the end portion of the optical fiber is inserted into the guide hole to hold the optical fiber in a straight line, and the coating is removed by the first holding pair and the second holding pair.

  However, since the guide hole is a hole having a diameter slightly larger than the diameter of the optical fiber, it is difficult to insert the guide hole. For example, the end of the optical fiber is caught by the edge of the hole, and the optical fiber cannot be held in a straight line. There is a possibility that the fiber is removed from the first holding pair and the second holding pair and cannot be removed.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an optical fiber coating removal tool that can suppress a positional deviation of an optical fiber with respect to a coating removal blade with a relatively simple structure.

The coating removal tool according to one aspect of the present invention is
A covering remover that includes a base part and a cover part, overlaps the cover part and the base part via an optical fiber covered with a glass fiber, and removes the coating of the optical fiber,
The base part and the lid part are made of resin,
Having at least a pair of coating removal blades having a base blade portion provided on the base portion and a lid blade portion provided on the lid portion;
The base portion has a first V-groove that sandwiches the optical fiber in either or both of the longitudinal direction of the optical fiber with respect to the base blade portion,
The lid portion has a second V-groove for sandwiching the optical fiber, and the second V-groove is in a state where the lid portion and the base portion are overlapped with respect to the lid blade portion. And provided in the direction having the first V-groove before and after the longitudinal direction.

  According to the said invention, the position shift of the optical fiber with respect to a coating removal blade can be suppressed with a comparatively simple structure.

It is a perspective view of the coating removal tool which concerns on this embodiment. It is a perspective view which shows the state which piled up the cover part of the coating removal tool shown in FIG. 1 on the base part. It is the figure which looked at the coating removal tool shown in FIG. 2 from the front. It is sectional drawing of an optical fiber. It is a perspective view of an optical fiber holder. It is a figure explaining the coating removal method of an optical fiber. It is a figure explaining the coating removal method of an optical fiber. It is a figure explaining the coating removal method of an optical fiber. It is a figure explaining the coating removal method of an optical fiber. It is a figure explaining the coating removal method of an optical fiber.

(Description of Embodiment of the Present Invention)
First, embodiments of the present invention will be listed and described.
The coating removal tool according to one aspect of the present invention is
(1) A coating remover that includes a base portion and a lid portion, overlaps the lid portion and the base portion via an optical fiber covered with a glass fiber, and removes the coating of the optical fiber. There,
The base part and the lid part are made of resin,
Having at least a pair of coating removal blades having a base blade portion provided on the base portion and a lid blade portion provided on the lid portion;
The base portion has a first V-groove that sandwiches the optical fiber in either or both of the longitudinal direction of the optical fiber with respect to the base blade portion,
The lid portion has a second V-groove for sandwiching the optical fiber, and the second V-groove is in a state where the lid portion and the base portion are overlapped with respect to the lid blade portion. And provided in the direction having the first V-groove before and after the longitudinal direction.
The first V-groove and the second V-groove configured as described above hold the optical fiber between the base portion and the lid portion at a relatively close position from above and below, and hold the optical fiber straightened. The coating of the optical fiber can be removed by the coating removing blade. Thereby, it is possible to provide an optical fiber coating removal tool that can suppress the positional deviation of the optical fiber with respect to the coating removal blade with a relatively simple structure.

(2) It is preferable to have a hinge part that connects the lid part to the base part so as to be rotatable, and the lid part, the base part, and the hinge part are integrally formed.
Since the hinge portion is provided, alignment when the lid portion and the base portion are overlapped is easy. Also, the lid and base are connected and integrated via the hinge,
The entire coating removal tool can be manufactured by integral molding, and the manufacturing cost of the coating removal tool can be reduced.

(3) having a positioning portion for positioning by engaging the protrusion and the recess when the lid portion and the base portion are overlapped;
It is preferable that the protrusion is provided on one of the lid and the base, and the recess is provided on the other.
Since the positioning portion that engages the protrusion and the recess is provided, it is possible to increase the alignment accuracy when the lid portion and the base portion are overlapped. Thereby, the position of a base blade part and a cover blade part can be match | combined more correctly, and can be coat | covered and removed accurately.

(4) Either or both of the base portion and the lid portion are provided with a guide portion that regulates the moving direction of the optical fiber holder that holds the optical fiber,
The guide portion is preferably provided so as to extend in the longitudinal direction of the optical fiber.
When the optical fiber is held on the optical fiber holder and the coating is removed, the guide portion regulates the moving direction when the optical fiber holder is pulled, so that the optical fiber can be prevented from being pulled in a bent state. Thereby, it can suppress that a glass fiber is damaged at the time of coating removal.

(5) When the lid portion and the base portion are overlapped, an interval restricting portion that restricts the blade edge of the base blade portion and the blade edge of the lid blade portion to a predetermined interval;
The spacing regulating portion is located in the vicinity of both sides in the direction perpendicular to the longitudinal direction of the optical fiber from the base blade portion and the lid blade portion, in the spacing direction between the blade edge of the base blade portion and the blade edge of the lid blade portion. It is preferable to restrict to the predetermined interval by providing a convex portion.
If the distance between the blade edges when the lid and base are overlapped is too wide, it will be difficult to remove the optical fiber coating, and if it is too narrow, the glass fiber may be damaged. It is desirable to maintain a predetermined interval. For this reason, when the lid portion and the base portion are overlapped with each other, the base blade is provided by providing an interval regulating portion provided with a convex portion in the interval direction between the blade edge of the base blade portion and the blade edge of the lid blade portion. The distance between the blade edge of the part and the blade edge of the lid blade part can be kept at a predetermined distance.

(6) The coating removal blades are provided in two pairs at a predetermined interval before and after the longitudinal direction of the optical fiber, and the two pairs of coating removal blades are coatings of different outer diameters on the optical fiber. It is preferable that it is a blade which removes.
Since two pairs of blades for removing coatings with different outer diameters are provided, coatings with different outer diameters can be removed at once. Thereby, the work man-hour for removing the coating of the optical fiber can be reduced. In addition, since it is not necessary to prepare a tool for removing the coating for each outer diameter of the coating, the cost of the tool can be reduced.

(7) The sheath removing blade for removing the sheath having the larger outer diameter of the two pairs of sheath removing blades has an arc-shaped recess in a part of each of the base blade portion and the lid blade portion. Preferably it is formed.
Since the coating removal blade that removes the coating with the larger outer diameter has an arc-shaped recess formed in a part of the blade edge, only the coating with the larger outer diameter remains with the coating with the smaller outer diameter remaining. Easy to remove.

(Details of the embodiment of the present invention)
Specific examples of the coating removal tool according to the embodiment of the present invention will be described below with reference to the drawings.
In addition, this invention is not limited to these illustrations, is shown by the claim, and intends that all the changes within the meaning and range equivalent to a claim are included.

  As shown in FIGS. 1 and 2, the sheath removal tool 1 includes a base portion 2 and a lid portion 4 that is overlaid on the upper side of the base portion 2. The lid part 4 is connected to the base part 2 via a hinge part 6 so as to be rotatable. The base portion 2, the lid portion 4 and the hinge portion 6 are integrally formed of a resin (eg, polyacetal (POM), polyamide (PA), etc.) having excellent strength, elastic modulus, and impact resistance. . In the following description, the front-rear direction, the left-right direction, and the up-down direction are based on the directions of arrows appropriately shown in the drawings.

The base portion 2 has a rectangular base 21 that is long in the front-rear direction. On the upper surface of the base 21,
Side walls 22 are provided which extend continuously at the left, front and right edges. Further, on the upper surface of the base 21, an inner wall 23 extending in parallel with each side wall 22 is provided inside the side wall 22.

  As shown in FIG. 1, a direction (left-right direction) perpendicular to the longitudinal direction (front-rear direction) of each wall is between the left side wall 22 and the inner wall 23 and between the right side wall 22 and the inner wall 23. ) Is provided. Between the left and right inner walls 23, a base front blade portion 25A (an example of a coating removal blade) and a base rear blade portion 25B (an example of a coating removal blade) extending in the left-right direction are provided at a predetermined interval in the front-rear direction. It has been.

The side wall 22, the inner wall 23, the regulating wall 24, the base front blade part 25A, and the base rear blade part 25B are provided to have the same height in the vertical direction of FIG.
A portion surrounded by the side wall 22, the inner wall 23, and the regulation wall 24 is a concave portion 30 (an example of a positioning portion) whose bottom is the upper surface of the base 21. Further, a portion surrounded by the inner wall 23 and the base front blade portion 25 </ b> A is a concave portion 31 (an example of a positioning portion) whose bottom is the upper surface of the base 21. In the following description, the rear end portion of the recess 30 in which the left regulation wall 24 is provided is referred to as a recess 30A, and the rear end portion of the recess 30 in which the right regulation wall 24 is provided is described below. In the description of FIG.

  A plate-like clamp portion 26 protruding from the upper surface of the base 21 is provided behind the base rear blade portion 25B so as to be parallel to the base rear blade portion 25B. Further, a clamp portion 27 protruding upward from the upper end of the front side wall 22 is provided in front of the base front blade portion 25A so as to be parallel to the base front blade portion 25A. In addition, a clamp part may be provided in both front and rear with respect to a base blade part (including the base front blade part 25A and the base rear blade part 25B) as in this example, or may be provided in either front or rear. Also good.

  Each member of the base 2 is made of a resin such as POM or PA and is integrally formed.

The base front blade portion 25A and the base rear blade portion 25B are base blades for removing the coating of the optical fiber, and are provided in the front-rear direction with an interval corresponding to the length of the coating to be removed. The base front blade portion 25A and the base rear blade portion 25B are formed so that the blade width becomes narrower toward the blade edge (25Aa, 25Ba). The base front blade portion 25A is a parallel blade in which the height of the blade edge 25Aa (height in the vertical direction in FIG. 1) is constant. The base rear blade portion 25B is a blade in which an arcuate concave portion 28 close to a semicircular shape is formed in a part of the blade edge 25Ba. The size (diameter) of the recess 28 is determined according to the outer diameter of the coating to be removed.

V-grooves 26a and 27a (an example of a first V-groove) for placing optical fibers are formed on the upper portions of the clamp portions 26 and 27, respectively. The V grooves 26a and 27a are formed at the same position in the left-right direction when viewed from the front-rear direction.
A recess 29 for placing the optical fiber is formed on the upper portion of the front inner wall 23.
The recess 29 has a substantially semicircular shape, and is formed at a substantially central portion in the longitudinal direction (left-right direction) of the inner wall 23.

  In the left and right side walls 22, the rear portions 22 a and 22 b of the regulation wall 24 have a distance corresponding to the width of the optical fiber holder 7 described later with reference to FIG. It is comprised so that it may function as a guide part which guides along the front-back direction along.

  The lid 4 has a rectangular base 41. In the state of FIG. 1, the upper surface of the base 41 is provided with side walls 42 that extend continuously to the left, front, and right edges. Further, an inner wall 43 extending in parallel with each side wall 42 is provided on the inner surface of the side wall 42 on the upper surface of the base 41. The distance between the left and right side walls 42 is provided to be equal to the distance between the left and right side walls 22 of the base portion 2. The distance between the left and right inner walls 43 is set to be equal to the distance between the left and right inner walls 23 of the base portion 2. The inner wall 43 on the front side is formed on the rear side by the thickness of the inner wall 23 relative to the inner wall 23 on the front side of the base portion 2.

  Between the left side wall 42 and the inner wall 43, and between the right side wall 42 and the inner wall 43, a wall 44 extending in a direction (left and right direction) orthogonal to the longitudinal direction (front and rear direction) of each wall is provided. It has been. The wall 44 is formed in front of the regulation wall 24 of the base portion 2 by the thickness of the regulation wall 24. Between the left and right inner walls 43, a lid front blade portion 45A (an example of a coating removal blade) and a lid rear blade portion 45B (an example of a coating removal blade) extending in the left-right direction are provided at a predetermined interval in the front-rear direction. It has been. The interval between the lid front blade portion 45A and the lid rear blade portion 45B is configured to be the same as the interval between the base front blade portion 25A and the base rear blade portion 25B of the base portion 2. Further, the distance from the front side wall 42 to the lid front blade part 45A is configured to be the same distance as the distance from the front side wall 22 of the base part 2 to the base front blade part 25A.

The side wall 42, the inner wall 43, the wall 44, the lid front blade portion 45A, and the lid rear blade portion 45B are provided to have the same height.
The upper end of the right wall 44 is provided with a protruding portion 50A (an example of a positioning portion), and the upper end of the left wall 44 is provided with a protruding portion 50B (an example of a positioning portion). It has been. The protrusions 50A and 50B are provided at intervals that can be accommodated in the recesses 30A and 30B of the base part 2, respectively.
Protruding portions 51A and 51B (an example of a positioning portion) projecting upward are provided at the upper end of the inner wall 43 on the front side. The protrusions 51 </ b> A and 51 </ b> B are provided so as to be located inside the interval that can be accommodated in the recess 31 of the base 2, that is, at least inside the left and right inner walls 43.
In this example, the base portion 2 is provided with a recess and the lid portion 4 is provided with a protrusion. However, the base portion 2 may be provided with a protrusion and the lid portion 4 may be provided with a recess.

  A plate-like clamp portion 46 protruding from the upper surface of the base 41 is provided behind the lid rear blade portion 45B so as to be parallel to the lid rear blade portion 45B. Further, in front of the lid front blade portion 45A, a plate-like clamp portion 47 protruding from the upper surface of the base 41 is parallel to the lid front blade portion 45A between the front side wall 42 and the front inner wall 43. Is provided. The clamp part 46 of the lid part 4 is provided slightly in front of the clamp part 26 of the base part 2. Further, the clamp portion 47 of the lid portion 4 is provided slightly behind the clamp portion 27 of the base portion 2. For this reason, when the cover part 4 is superimposed on the base part 2, the clamp part 46 and the clamp part 26 are arranged in parallel in the front-rear direction with a relatively short distance between the two clamp parts. Similarly, the clamp part 27 and the clamp part 47 are arranged in parallel in the front-rear direction with a relatively short distance.

  In addition, the clamp part of the cover part 4 is the cover blade part (45A, 45B) when the clamp part of the base part 2 is provided on both front and rear sides of the base blade part (25A, 25B) as in this example. It is provided both before and after. On the other hand, when the clamp part of the base part 2 is provided in any one of the front and back of the base blade part (25A, 25B), it is provided on one of the same side as the clamp part is provided. That is, when the rear clamp part 26 is provided with respect to the base blade part (25A, 25B) of the base part 2, the lid part 4 has a rear clamp with respect to the cover blade part (45A, 45B). A portion 46 is provided. When the front clamp part 27 is provided on the base part 2, the front clamp part 47 is provided on the lid part 4.

  At the upper ends of the left and right inner walls 43, a first interval restricting portion 52 that protrudes upward is provided. The first interval regulating portion 52 is provided from at least a position where the lid front blade portion 45A is provided to a position where the lid rear blade portion 45B is provided. The first interval regulating portion 52 is the interval between the blade edge 25Aa of the base front blade portion 25A and the blade edge 45Aa of the lid front blade portion 45A in a state where the lid portion 4 and the base portion 2 are overlapped (the state of FIG. 2). And it has a function as, for example, a spacer that regulates the distance between the blade edge 25Ba of the base rear blade part 25B and the blade edge 45Ba of the lid rear blade part 45B to a predetermined distance. The thickness of the 1st space | interval control part 52 is set according to the diameter of the glass fiber in the optical fiber from which coating | cover is removed. The thickness of the first interval regulating portion 52 is set so that at least the interval between the blade edge 25Aa of the base front blade portion 25A and the blade edge 45Aa of the lid front blade portion 45A is 0.05 to 0.11 mm, for example.

At the upper end of the front side wall 42, a second interval restricting portion 53 protruding upward is provided. The second space regulating portion 53 fills a gap that may be generated between the side wall 22 of the base portion 2 and the side wall 42 of the lid portion 4 when the lid portion 4 is overlapped on the base portion 2, 25B) and the lid blade portions (45A, 45B) are supplementarily regulated, and the vertical spacing of the clamp portion 47 with respect to the clamp portion 27 is regulated.

  Each member of the lid 4 is made of a resin such as POM or PA and is integrally formed.

The lid front blade portion 45A and the lid rear blade portion 45B are lid blades for removing the coating of the optical fiber. When the lid portion 4 is superimposed on the base portion 2, the lid front blade portion 45A is in front of the base. The blade rear portion 45B faces the blade portion 25A, and the base rear blade portion 25B faces the base rear blade portion 25B. The base front blade portion 25A and the lid front blade portion 45A constitute a pair of coating removal blades, and the base rear blade portion 25B and the lid rear blade portion 45B constitute another pair of coating removal blades. The lid front blade portion 45A has the same configuration as the base front blade portion 25A, and the lid rear blade portion 45B has the same configuration as the base rear blade portion 25B.
The lid rear blade portion 45B is provided with a concave portion 48 corresponding to the concave portion 28 of the base rear blade portion 25B.

V-grooves 46a and 47a (an example of a second V-groove) for holding the optical fiber are formed on the upper portions of the clamp portions 46 and 47, respectively. The V grooves 46a and 47a are formed at the same position in the left-right direction when viewed from the front-rear direction. The V grooves 46a and 47a are
When the lid portion 4 is superimposed on the base portion 2, the V grooves 26a and 27a of the base portion 2 are formed at the same position in the left-right direction, although the vertical direction is reversed.
A recess 49 for holding the optical fiber is formed in the upper part of the inner wall 43 on the front side.
The concave portion 49 has a substantially semicircular shape, and is formed at a substantially central portion in the longitudinal direction (left-right direction) of the inner wall 43 on the front side.
The front side wall 42 is formed with a recess 54 in which the clamp portion 27 of the base portion 2 is accommodated.

  In the left side wall 42, a portion 42 a behind the wall 44 has an interval according to the width of the optical fiber holder 7, which will be described later with reference to FIG. 5, and the optical fiber holder 7 extends along the wall 44. It is configured to function as a guide portion that guides in the front-rear direction.

As shown in FIG. 3, when the lid portion 4 is overlapped with the base portion 2 and viewed from the front side, the side wall 42 of the lid portion 4 is superimposed on the side wall 22 of the base portion 2, and the base is in the recess 54 of the lid portion 4. It can be seen that the clamp part 27 of the part 2 is accommodated, and the clamp part 47 of the lid part 4 is arranged behind the clamp part 27. Further, the V groove 27a of the clamp part 27 is recessed downward, and the V groove 47a of the clamp part 47 is recessed upward. An optical fiber C is disposed in the gap between both V grooves. At this time,
Even if the optical fiber C is arranged slightly deviated from the center position in the left-right direction, the optical fiber C follows the slopes of the V-groove 27a and the V-groove 47a in accordance with the overlapping of the lid portion 4 and the base portion 2. It moves toward the center in the left-right direction and is arranged at a preferred position.

As shown in FIG. 4, the optical fiber C includes a glass fiber 91 composed of a core and a clad,
A first covering portion 92 that covers the glass fiber 91 and a second covering portion 93 that covers the first covering portion 92 are provided. The glass fiber 91 is made of, for example, quartz glass, and the first covering portion 92 and the second covering portion 93 are made of, for example, an ultraviolet curable resin.

As shown in FIG. 5, the optical fiber holder 7 includes an optical fiber holder 70 and a cut spacer 80.
The optical fiber holder 70 has fixing portions 71 to 73 for fixing the optical fiber C. The optical fiber C is fixed in a state where it extends in the front-rear direction at the center in the left-right direction of the fixing parts 71-73. FIG. 5 shows a state where the first covering portion 92 and the second covering portion 93 of the optical fiber C are removed. The cut spacer 80 has a pair of slide portions 81A and 81B extending in the front-rear direction. Between the slide portions 81A and 81B, recesses 82 to 85 for fixing the optical fiber holder 70 are provided so as to be continuous in the front-rear direction. The interval W1 between the slide portions 81A and 81B is slightly narrower than the interval W2 (see FIG. 1) between the left and right side walls 22 (guide portions 22a and 22b) in the base portion 2 of the sheath removing tool 1.

Next, a method for removing the coating of the optical fiber C using the coating removal tool 1 will be described with reference to FIGS.
First, the optical fiber holder 7 from which the optical fiber C from which the coating is to be removed is fixed to the optical fiber holder 70 and the optical fiber holder 70 is fixed to the cut spacer 80 is prepared. In this example,
An optical fiber C coating in which the outer diameter of the glass fiber 91 is 0.125 mm, the outer diameter of the first covering portion 92 is 0.25 mm, and the outer diameter of the second covering portion 93 is 0.5 mm, for example. Remove.
Note that the distance between the blade edge 25Aa and the blade edge 45Aa and the distance between the blade edge 25Ba and the blade edge 45Ba in the state where the lid portion 4 and the base portion 2 are overlapped (the state shown in FIGS. 7 and 10) are, for example, 0.075 mm. Is set to The radius of the concave portion 28 of the base rear blade portion 25B and the radius of the concave portion 48 of the lid rear blade portion 45B are set to 0.14 mm, for example, slightly larger than the radius of the second covering portion 93.

  As shown in FIG. 6, the optical fiber holder 7 is set on the base portion 2 of the sheath removing tool 1. At this time, the optical fiber holder 7 is moved forward along the guide portions 22 a and 22 b of the base portion 2 until the front end surfaces of the slide portions 81 </ b> A and 81 </ b> B come into contact with the regulation walls 24 of the base portion 2. The front end portion of the optical fiber C is placed linearly on the V groove 26a, on the concave portion 28 of the base rear blade portion 25B, on the base front blade portion 25A, on the concave portion 29, and on the V groove 27a. . In this example, the optical fiber C is fixed in such a length that the tip of the optical fiber C is placed on the V-groove 27a. However, the position of the optical fiber C in the front-rear direction depends on the length of the coating to be removed. It is moved and fixed to the optical fiber holder 7.

Subsequently, the lid portion 4 is rotated via the hinge portion 6 so that the lid portion 4 is superposed on the base portion 2 as shown in FIG. At this time, the protrusion 50A of the lid 4 is engaged with the recess 30A of the base 2 and the protrusion 50B is engaged with the recess 30B, whereby the position of the lid 4 with respect to the base 2 is determined. Further, the protrusions 51 </ b> A and 51 </ b> B of the lid part 4 are similarly positioned by engaging with the recesses 31 of the base part 2.
The side wall 42 of the lid part 4 overlaps the side wall 22 of the base part 2, and the left and right inner walls 43 of the lid part 4 overlap the left and right inner walls 23 of the base part 2, respectively.

Further, the clamp portion 46 of the lid portion 4 is disposed between the base rear blade portion 25 </ b> B and the clamp portion 26 so as to be vertically opposite to the direction of the clamp portion 26. As a result, the optical fiber C is sandwiched between the upward V groove 26a of the clamp part 26 and the downward V groove 46a of the clamp part 46.
In addition, the clamp portion 47 of the lid portion 4 is disposed between the front inner wall 23 and the clamp portion 27 in the base portion 2 so as to be vertically opposite to the direction of the clamp portion 27. As a result, the optical fiber C is sandwiched between the upward V groove 27a of the clamp part 27 and the downward V groove 47a of the clamp part 47.
Further, an inner wall 43 on the front side of the lid portion 4 is disposed on the rear side of the inner wall 23 on the front side in the base portion 2. Accordingly, the optical fiber C is held by the upward concave portion 29 of the inner wall 23 and the downward concave portion 49 of the inner wall 43.

  In addition, the base front blade portion 25A and the lid front blade portion 45A cut into the coating of the optical fiber C from above and below. Similarly, the base rear blade portion 25B and the lid rear blade portion 45B cut into the coating of the optical fiber C from above and below.

  The base front blade portion 25A and the lid front blade portion 45A are formed of a resin that is harder than the first cover portion 92 and the second cover portion 93 that are formed of an ultraviolet curable resin or the like. For this reason, as shown in FIG. 8, the first covering portion 92 and the second covering portion 93 of the optical fiber C have an interval S1 (the distance S1 between the blade edge 25Aa of the base front blade portion 25A and the blade edge 45Aa of the lid front blade portion 45A For example, a cut is made up to 0.075 mm). On the other hand, since the glass fiber 91 (quartz glass) is a material harder than resin, the glass fiber 91 is indented so that the portions of the base front blade portion 25A and the lid front blade portion 45A that are in contact with the glass fiber 91 follow the shape of the glass fiber 91. . For this reason, the glass fiber 91 is not cut by the base front blade portion 25A and the lid front blade portion 45A.

Further, at the place where the optical fiber C contacts the base rear blade portion 25B and the lid rear blade portion 45B,
As shown in FIG. 9, the second covering portion 93 of the optical fiber C is cut to a distance S2 (for example, 0.075 mm) between the blade edge 25Ba and the blade edge 45Ba. At this time, since the concave portion 28 and the concave portion 48 having a slightly larger diameter than the first covering portion 92 are formed in the base rear blade portion 25B and the lid rear blade portion 45B, respectively, There is no notch in the first covering portion 92 that enters.

  As shown in FIG. 10, the optical fiber holder 7 is pulled rearward along the guide portions 22a, 22b, and 42a. As a result, the first covering portion 92 and the second covering portion 93 are torn starting from the location where the cut is made by the base front blade portion 25A and the lid front blade portion 45A, and the base front blade portion 25A and the lid front blade portion 45A. The first covering portion 92 and the second covering portion 93 in front of the optical fiber C are removed. At the same time, the second covering portion 93 is torn starting from the position where the notch is made by the base rear blade portion 25B and the lid rear blade portion 45B, and the second covering portion 93 is further forward than the base rear blade portion 25B and the lid rear blade portion 45B. The covering portion 93 is removed from the optical fiber C.

According to the coating removal tool 1 having the above-described configuration, the base portion 2 has the V-groove 27a that holds the optical fiber C on the front side in the longitudinal direction of the optical fiber C with respect to the base blade portion (25A, 25B). In addition, a V groove 26a is provided on the rear side. Moreover, the cover part 4 has the V groove 47a in the front side in a longitudinal direction with respect to the cover blade part (45A, 45B) similarly to the base part 2, and has the V groove 46a on the rear side. In addition, when the base portion 2 has a V-groove (for example, the rear V-groove 26a) in the longitudinal direction with respect to the base blade portion (25A, 25B), the lid portion 4 also has the base portion. 2 has a V-groove (rear V-groove 46a). For this reason, the optical fiber C can be viewed from above and below by two V-grooves that are relatively close to each other in the front-rear direction, for example, the V-groove 26a of the base portion 2 and the V-groove 46a of the lid portion 4 It can be securely held.
Therefore, the coating of the optical fiber C can be removed by the coating removing blade while holding the optical fiber C set between the base portion 2 and the lid portion 4 in a straightened state.
Thereby, the position shift of the optical fiber with respect to the coating removal blade can be suppressed with a relatively simple structure.

  In addition, the protrusions 50A, 50B and the recesses 30A, 30B are engaged, and the protrusions 51A, 51B and the recesses 31 are engaged, so that the lid part 4 can be accurately positioned with respect to the base part 2. Is provided. Thereby, the opposing position of a base blade part (25A, 25B) and a cover blade part (45A, 45B) can be match | combined more correctly, and the coating | coated of the optical fiber C can be removed accurately.

By the way, if the interval between the blade edges when the base portion 2 and the lid portion 4 are overlapped is too wide, it becomes difficult to remove the coating of the optical fiber C, and if it is too narrow, the glass fiber 91 is damaged. Since there is a fear, it is desirable to maintain an appropriate predetermined interval. On the other hand, in the covering removal tool 1, by providing the space regulating portions 52 and 53, the blade edge (25Aa, 25Ba) of the base blade portion (25A, 25B) and the blade edge (45Aa) of the lid blade portion (45A, 45B). , 45Ba) can be kept at a predetermined interval. Moreover, the blade part which the glass fiber 91 contact | abutted by forming a base blade part (25A, 25B) and a cover blade part (45A, 45B) integrally as a part of the base part 2 and the cover part 4 with a resin material. Can be recessed. For this reason, the 1st coating | coated part 92 and the 2nd coating | coated part 93 of the optical fiber C can be reliably removed by adjusting the space | interval of a blade edge to 0.05-0.11 mm with the space | interval control part 52,53. At the same time, the influence on the glass fiber 91 due to the contact of the resin blade portion can be suppressed. Also,
By securing the distance between the blade edges of 0.05 to 0.11 mm, it is possible to suppress a load on the blade portion that is recessed every time the glass fiber 91 comes into contact, and to maintain sufficient durability.

  Moreover, since the hinge part 6 is provided, the positioning at the time of overlapping the cover part 4 and the base part 2 is easy. Moreover, since the cover part 4 and the base part 2 are connected and integrated through the hinge part 6, the whole covering removal tool 1 can be manufactured by integral molding, and the manufacturing cost of the covering removal tool 1 is reduced. it can.

  Further, when the optical fiber C is held by the optical fiber holder 7 and removed, the guide portions 22a, 22b, and 42a regulate the moving direction when the optical fiber holder 7 is pulled, so that the optical fiber C is bent. Can be prevented from being pulled. Thereby, the damage to the glass fiber 91 added in the case of coating removal can be suppressed, and product efficiency can be improved. Note that the guide portion is not limited to the above-described structure, and it is sufficient that the optical fiber holder 7 is movable relative to the base portion and the lid portion along the longitudinal direction of the optical fiber. Moreover, you may provide in places other than the edge part of the base of a base part, or the base of a cover part.

  Moreover, since a pair of coating removal blades for removing the first coating portion 92 having a small outer diameter and a pair of coating removal blades for removing the second coating portion 93 having a large outer diameter are provided, the first coating portion 92 is provided. And the second covering portion 93 can be removed at a time. Thereby, the man-hours for removing the coating of the optical fiber can be reduced. Further, since it is not necessary to prepare a coating removal tool for each outer diameter of the coating, the cost of the tool can be reduced. In addition, since the coating removing blade for removing the second covering portion 93 having the larger outer diameter has the arc-shaped concave portions 28 and 48 formed in a part of the blade edge, the first covering portion having the smaller outer diameter is formed. It is easy to remove only the second covering portion 93 having a larger outer diameter while leaving 92.

  While the invention has been described in detail and with reference to specific embodiments, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. In addition, the number, position, shape, and the like of the constituent members described above are not limited to the above-described embodiments, and can be changed to a number, position, shape, and the like that are suitable for carrying out the present invention.

DESCRIPTION OF SYMBOLS 1 Cover removal tool 2 Base part 4 Lid part 6 Hinge part 7 Optical fiber holder 21, 41 Base 22, 42 Side wall 22a, 22b, 42a Guide part 23, 43 Inner wall 24 Restriction wall 25A Base front blade part (cover removal blade Example)
25Aa blade edge 25B base rear blade portion (an example of a coating removal blade)
25Ba Cutting edge 26, 27 Clamp part 26a, 27a V groove (an example of the first V groove)
28, 48 Recess 30 (30A, 30B), 31 Recess (an example of a positioning part)
45A Front blade part (an example of a coating removal blade)
45Aa blade edge 45B lid rear blade part (an example of coating removal blade)
45Ba Cutting edge 50A, 50B, 51A, 51B Protruding part (an example of positioning part)
46, 47 Clamp part 46a, 47a V groove (an example of the second V groove)
52 1st space | interval control part 53 2nd space | gap control part 70 Optical fiber holder 71-73 Fixing part 80 Cut spacer 81A, 81B Slide part 82-85 Recess S1, S2, W1, W2 space | interval

Claims (6)

A covering remover that includes a base part and a cover part, overlaps the cover part and the base part via an optical fiber covered with a glass fiber, and removes the coating of the optical fiber,
The base part and the lid part are made of resin,
Having at least a pair of coating removal blades having a base blade portion provided on the base portion and a lid blade portion provided on the lid portion;
The base portion has a first V-groove that sandwiches the optical fiber in either or both of the longitudinal direction of the optical fiber with respect to the base blade portion,
The lid portion has a second V-groove for sandwiching the optical fiber, and the second V-groove is in a state where the lid portion and the base portion are overlapped with respect to the lid blade portion. And provided in the direction having the first V-grooves before and after the longitudinal direction,
A hinge portion that pivotably connects the lid portion to the base portion, and the lid portion, the base portion, and the hinge portion are integrally formed;
The hinge portion is a flat elastic hinge.
Cover removal tool. When the lid and the base portion are overlapped, a positioning portion that positions by engaging the protrusion and the recess,
The covering removal tool according to claim 1, wherein the projection is provided on one of the lid and the base, and the recess is provided on the other. Either or both of the base part and the lid part are provided with a guide part that regulates the moving direction of the optical fiber holder that holds the optical fiber,
The sheath removal tool according to claim 1 or 2, wherein the guide portion is provided so as to extend in a longitudinal direction of the optical fiber. When the lid portion and the base portion are overlapped, an interval regulating portion that regulates the blade edge of the base blade portion and the blade edge of the lid blade portion at a predetermined interval;
The spacing regulating portion is located in the vicinity of both sides in the direction perpendicular to the longitudinal direction of the optical fiber from the base blade portion and the lid blade portion, in the spacing direction between the blade edge of the base blade portion and the blade edge of the lid blade portion. The covering removal tool according to any one of claims 1 to 3, wherein the protruding portion is provided to regulate the predetermined interval.   Two pairs of the coating removal blades are provided at a predetermined interval before and after the longitudinal direction of the optical fiber, and the two pairs of coating removal blades remove coatings of different outer diameters on the optical fiber. The coating removal tool according to any one of claims 1 to 4, which is a blade.   The sheath removing blade for removing the sheath having the larger outer diameter of the two pairs of sheath removing blades has an arc-shaped recess formed in a part of each blade edge of the base blade portion and the lid blade portion. The coating remover according to claim 5.

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