JP2019060953A - Optical fiber cable guide - Google Patents

Abstract

To provide an optical fiber cable guide that can prevent it from dropping off from an optical fiber cable and prevent the optical fiber cable from getting damaged.SOLUTION: An optical fiber cable guide 1 includes a holding section 3 configured to be able to hold an optical fiber cable 101 in a state in which the optical fiber cable is bent in a direction intersecting with the insertion and pullout direction of a connector 103 at one end of the connector in the insertion and pullout direction. The holding unit includes: a first peripheral wall section 11 and a second peripheral wall section 12 coupled with each other via a hinge section 13 in an openable and closable manner; and a lock section 15 that is bridged between the first peripheral wall section and second peripheral wall section and is in a locked state for restricting the first wall section and second wall section from being opened when the first wall section and second wall section are closed.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to fiber optic cable guides.

  There is known an optical fiber cable guide attached to a connector provided at one end of an optical fiber cable (see, for example, Patent Document 1). The fiber optic cable guide described in Patent Document 1 is fitted to the outside of the boot portion of the connector. The boot portion and the fiber optic cable disposed inside the fiber optic cable guide are bent in a direction intersecting with the insertion and removal direction of the connector.

U.S. Pat. No. 5,640,476

  However, in the optical fiber cable guide described in Patent Document 1, the boot portion is introduced by introducing the optical fiber cable into the inside through the axially extending slit and sliding the optical fiber cable guide toward the boot portion side of the connector. Fit on the outside of the Therefore, when the optical fiber cable guide slides in the direction of coming out of the boot portion for some reason, the optical fiber cable thinner than the boot portion can easily pass through the slit. Therefore, when the optical fiber cable passes through the slit, the optical fiber cable guide may fall off the optical fiber cable.

  In addition, if the fiber optic cable guide is slid to the boot side while holding the fiber optic cable at the point opposite to the boot side with the fiber optic cable guide in between, tension on the fiber optic cable Works. At this time, as the distance of sliding the optical fiber cable guide increases, the load on the optical fiber cable increases, and the possibility of damaging the optical fiber cable increases.

  In one aspect of the present disclosure, it is desirable to provide an optical fiber cable guide that can suppress detachment from the optical fiber cable and can suppress damage to the optical fiber cable.

  One aspect of the present disclosure is an optical fiber cable guide, which is attached to a connector provided at one end of the optical fiber cable, and the optical fiber cable extends from the connector in a direction intersecting with the insertion and removal direction of the connector An optical fiber cable guide for guiding the optical fiber cable, wherein the optical fiber cable can be held in a curved state in a direction intersecting the insertion / removal direction of the connector at one end of the connector in the insertion / removal direction When the first peripheral wall and the second peripheral wall, and the first peripheral wall and the second peripheral wall are closed so as to be openable and closable via the hinge portion, A lock portion is provided between the first peripheral wall portion and the second peripheral wall portion to be in a locked state that restricts the first peripheral wall portion and the second peripheral wall portion from being opened, and the holding portion is , First peripheral wall When the second peripheral wall is closed, the optical fiber cable in a position to be sandwiched between the first peripheral wall and the second peripheral wall is curved and held in the direction intersecting with the insertion and removal direction of the connector When the first peripheral wall and the second peripheral wall are opened, the optical fiber cable is configured to be detachable.

  According to the optical fiber cable guide configured as described above, the optical fiber cable is located between the first peripheral wall and the second peripheral wall when the first peripheral wall and the second peripheral wall are closed. Can be curved and held in a direction intersecting with the insertion and removal direction of the connector. When the first peripheral wall portion and the second peripheral wall portion are closed, the lock portion is in the locked state, and the opening of the first peripheral wall portion and the second peripheral wall portion is restricted. The lock portion is bridged between the first peripheral wall portion and the second peripheral wall portion when in the locked state. Therefore, the optical fiber cable can not pass through the portion where the lock portion is bridged. Therefore, with such an optical fiber cable guide, unlike the optical fiber cable guide having a slit extending in the axial direction, it is possible to suppress the optical fiber cable guide from falling off the optical fiber cable.

  Moreover, if it is the said optical fiber cable guide, a 1st peripheral wall part and a 2nd peripheral wall part can be opened, and it can attach or detach with respect to an optical fiber cable. Therefore, it is not necessary to slide the optical fiber cable guide while gripping the optical fiber cable, or the sliding distance can be made shorter than that of the conventional product. Therefore, it is possible to suppress an unnecessary load on the optical fiber cable at the time of attaching and detaching the optical fiber cable guide, and it is possible to suppress that the optical fiber cable is damaged due to such a load.

FIG. 1A is a perspective view of the optical fiber cable guide attached to the boot portion of the SC type optical fiber connector as viewed from the upper left front. FIG. 1B is a front view of the fiber optic cable guide mounted on the boot of the SC type fiber optic connector. FIG. 1C is a perspective view of the optical fiber cable guide attached to the boot portion of the SC type optical fiber connector as viewed from the lower left front. FIG. 2A is a plan view of the fiber optic cable guide. FIG. 2B is a left side view of the optical fiber cable guide. FIG. 2C is a front view of the fiber optic cable guide. FIG. 2D is a right side view of the fiber optic cable guide. FIG. 2E is a rear view of the fiber optic cable guide. FIG. 2F is a bottom view of the fiber optic cable guide. FIG. 3A is a front view showing the holding portion in the opened state and the boot portion of the connector. FIG. 3B is a front view showing the holding portion in the closed state and the boot portion of the connector. FIG. 4A is a left side view showing a state in which two optical fiber cable guides are aligned. FIG. 4B is a right side view showing a state in which two optical fiber cable guides are aligned. FIG. 5A is a perspective view of the optical fiber cable guide attached to the boot portion of the LC type optical fiber connector as viewed from the upper left front. FIG. 5B is a front view of the optical fiber cable guide attached to the boot of the LC type optical fiber connector. FIG. 5C is a perspective view of the optical fiber cable guide attached to the boot portion of the LC type optical fiber connector as viewed from the lower left front.

  The above-described fiber optic cable guide will now be described by way of an exemplary embodiment. In the following description, description will be made using each of the front, rear, left, right, upper, and lower directions shown in the drawings. Each of these directions is a direction defined based on the six views shown in FIGS. 2A to 2F. However, these directions are only directions defined in order to briefly describe the relative positional relationship of the parts constituting the optical fiber cable guide. Therefore, for example, when using the optical fiber cable guide, the direction in which the optical fiber cable guide is installed is arbitrary.

[Fiber optic cable guide configuration]
As shown in FIGS. 1A to 1C, in the optical fiber cable guide 1, the direction (cross direction in the drawing) in which the optical fiber cable 101 crosses the connector 103 from the connector 103 to the insertion and removal direction of the connector 103 (front and rear direction in the drawing). The optical fiber cable 101 is guided so as to extend in the downward direction). The connector 103 exemplified in the present embodiment is an SC type optical fiber connector. The optical fiber cable guide 1 has a holding portion 3 and a guide portion 5.

  The holding portion 3 curves the optical fiber cable 101 in a direction (obliquely lower back in the figure) crossing the insertion / extraction direction of the connector 103 at one end of the insertion / removal direction of the connector 103 (longitudinal direction in the figure). It is configured to be able to be held in the allowed state. The holding portion 3 has a first peripheral wall portion 11, a second peripheral wall portion 12, a hinge portion 13, and a lock portion 15. The first peripheral wall portion 11 and the second peripheral wall portion 12 are connected to be able to open and close via the hinge portion 13.

  1A to 1C show a state in which the first peripheral wall 11 and the second peripheral wall 12 are closed. 2A to 2F show a state in which the first peripheral wall 11 and the second peripheral wall 12 are opened. A first notch 16 is provided at the front end of the first peripheral wall 11 (see FIGS. 2B and 2D). A second notch 17 is provided at the front end of the second circumferential wall 12 (see FIGS. 2B and 2D). As shown in FIG. 3A, the holding portion 3 is attachable to and detachable from the optical fiber cable 101 when the first peripheral wall portion 11 and the second peripheral wall portion 12 are opened. As shown in FIG. 3B, when the first peripheral wall portion 11 and the second peripheral wall portion 12 are closed, the holding portion 3 has a flexible boot portion provided at one end in the insertion / removal direction of the connector 103. 105 is held in a state of being curved in a direction (in the present embodiment, obliquely lower back) intersecting with the insertion / extraction direction of the connector 103.

  At this time, the first peripheral wall portion 11 and the second peripheral wall portion 12 have a direction in which an axis corresponding to the center of curvature of the curved boot portion 105 extends (a lateral direction in the drawing) as a width direction. The boot portion 105 is sandwiched and held from both sides. Thereby, the holding portion 3 is the optical fiber cable 101 located at a position sandwiched between the first peripheral wall portion 11 and the second peripheral wall portion 12 (that is, the optical fiber in a state of being passed through the inside of the boot portion 105). ) Is curved and held in a direction (in the present embodiment, obliquely lower back) intersecting the insertion / extraction direction of the connector 103.

  The lock portion 15 has a first engagement portion 15A and a second engagement portion 15B as shown in FIGS. 2A to 2F. The first engagement portion 15A is provided integrally with the first peripheral wall portion 11. The second engagement portion 15B is provided integrally with the second peripheral wall portion 12. When the first peripheral wall portion 11 and the second peripheral wall portion 12 are closed, the first engagement portion 15A and the second engagement portion 15B engage with each other. Thus, the lock portion 15 is bridged between the first peripheral wall portion 11 and the second peripheral wall portion 12 so as to restrict the first peripheral wall portion 11 and the second peripheral wall portion 12 from being opened. It becomes. When the engagement between the first engagement portion 15A and the second engagement portion 15B is released, the lock portion 15 is unlocked. When the lock portion 15 is unlocked, the first peripheral wall portion 11 and the second peripheral wall portion 12 can be opened.

  As shown in FIG. 4A, the hinge portion 13 is in contact with the first virtual surface V1 perpendicular to the width direction assumed to be in contact with the outer surface of the first peripheral wall 11 and the outer surface of the second peripheral wall 12. It is provided at a position P1 that fits between the second virtual plane V2 perpendicular to the virtual width direction. The lock part 15 is provided in the position P2 which fits between the said 1st virtual surface V1 and the 2nd virtual surface V2, as shown to FIG. 4B. That is, the hinge portion 13 and the lock portion 15 are configured not to protrude in the width direction from the outer surfaces of the first peripheral wall portion 11 and the second peripheral wall portion 12.

  The guide portion 5 is a direction in which the optical fiber cable 101 extending from the boot portion 105 held by the holding portion 3 to the outside of the boot portion 105 crosses the insertion / extraction direction of the connector 103 (downward in FIG. Guide to.) The guide portion 5 is provided integrally with the first peripheral wall portion 11. The guide portion 5 has a curved wall 18 disposed at the front and lower position of the optical fiber cable 101 and a side wall 19 disposed at the left position of the optical fiber cable 101. The curved wall 18 and the side wall 19 are configured such that the cross-sectional shape orthogonal to the longitudinal direction is L-shaped. The curved wall 18 and the side wall 19 are connected to the first peripheral wall portion 11 at the upper end side, and are bent downward gradually from the connection location and extend to the lower end side.

  When the boot portion 105 is fitted into the first peripheral wall portion 11, the outer periphery of the boot portion 105 is surrounded in three directions (diagonally upper back, diagonally lower front, and left in FIG. 2D) other than the opening. The first recess 21 is provided (see FIG. 2D). At the lower end of the guide portion 5, when guiding the optical fiber cable 101, the outer periphery of the optical fiber cable 101 is surrounded in three directions (forward, backward and right in FIG. 2B) other than the opening portion. A recess 22 is provided (see FIGS. 2A, 2B and 2F). The first recess 21 and the second recess 22 are directed in different directions at their respective opening points. In the case of this embodiment, the opening of the first recess 21 is directed to the right in FIG. 2D, and the opening of the second recess 22 is directed to the left in FIG. 2B.

[effect]
According to the optical fiber cable guide 1 configured as described above, when the first peripheral wall 11 and the second peripheral wall 12 are closed, the optical fiber cable guide 1 is sandwiched between the first peripheral wall 11 and the second peripheral wall 12 The optical fiber cable 101 in the position can be bent and held in the direction intersecting with the insertion and removal direction of the connector 103. Therefore, for example, the direction in which the optical fiber cable 101 extends from the connector 103 whose horizontal direction is the insertion and removal direction can be held in a state of being bent downward. At this time, bending of the optical fiber cable 101 with a radius of curvature smaller than the allowable minimum bending radius can be suppressed.

  Further, in the case of the optical fiber cable guide 1, when the first peripheral wall portion 11 and the second peripheral wall portion 12 are closed, the lock portion 15 is between the first peripheral wall portion 11 and the second peripheral wall portion 12. The optical fiber cable 101 can not pass through the place where it is bridged and the lock portion 15 is bridged. Therefore, with such an optical fiber cable guide 1, it is possible to suppress the optical fiber cable guide 1 from falling off the optical fiber cable 101 unlike the optical fiber cable guide having a slit extending in the axial direction.

  Furthermore, if it is the said optical fiber cable guide 1, the 1st surrounding wall part 11 and the 2nd surrounding wall part 12 can be opened, and it can attach or detach with respect to the optical fiber cable 101. FIG. Therefore, the operation of sliding the optical fiber cable guide 1 while gripping the optical fiber cable 101 is unnecessary. Therefore, it is possible to suppress an unnecessary load on the optical fiber cable 101 at the time of attaching and detaching the optical fiber cable guide 1, and it is possible to suppress that the optical fiber cable 101 is damaged due to such a load.

  When it is desired to close the optical fiber cable guide 1 and the boot portion 105 by eliminating the gap formed between the optical fiber cable guide 1 and the boot portion 105, the optical fiber cable guide 1 may be slid to the connector 103 side. Good. Even when such a sliding operation is performed, if the holding unit 3 has a structure that can be opened and closed as described above, the distance for sliding the optical fiber cable guide 1 can be made shorter than that of the conventional product. . Therefore, it is possible to suppress an extra load on the optical fiber cable guide 1 and to suppress damage to the optical fiber cable 101.

  Further, in the case of the present embodiment, the hinge portion 13 and the lock portion 15 are provided at a position that fits between the first virtual surface V1 and the second virtual surface V2 described above. Therefore, for example, when the two optical fiber cables 101 used for transmission and reception are arranged in close positions as shown in FIGS. 4A and 4B, an optical fiber for each optical fiber cable 101 is used. Even when the cable guide 1 is attached, the hinge portion 13 and the lock portion 15 do not interfere with each other between the optical fiber cable guides 1 located adjacent to each other. Therefore, when several optical fiber cables 101 are arrange | positioned in the position which adjoined, the possibility that the optical fiber cable guide 1 can be mounted | worn with respect to each optical fiber cable 101 appropriately can be raised.

  Further, in the case of the present embodiment, in the first recess 21 and the second recess 22, the respective opening locations are directed in different directions. Therefore, even if a force to displace in the same direction acts on the boot portion 105 inserted into the first recess 21 and the optical fiber cable 101 introduced into the second recess 22, both are simultaneously removed from the recesses It is possible to suppress it. Therefore, the workability at the time of attaching the optical fiber cable guide 1 to the optical fiber cable 101 can be improved.

[Other embodiments]
Although the optical fiber cable guide 1 has been described above by way of exemplary embodiments, the above-described embodiments are merely exemplified as one aspect of the present disclosure. That is, the present disclosure is not limited to the above-described exemplary embodiments, and can be implemented in various forms without departing from the technical concept of the present disclosure.

  For example, in the above embodiment, the SC type optical fiber connector is shown as an example of the connector 103 to which the optical fiber cable guide 1 is attached, but other optical fiber connectors can also be used. For example, as illustrated in FIGS. 5A to 5C, an LC type optical fiber connector can also be used as the connector 103.

  Moreover, in the said embodiment, although the hinge part 13 and the lock part 15 were comprised so that it might not protrude in the width direction from the outer surface of the 1st peripheral wall part 11 and the 2nd peripheral wall part 12, several fiber optic cable guides If a sufficient gap can be secured between the two, there is no problem even if the hinge 13 and the lock 15 project in the width direction from the outer surfaces of the first peripheral wall 11 and the second peripheral wall 12.

  In the above embodiment, an example in which the optical fiber cable guide 1 has the holding portion 3 and the guide portion 5 is shown, but it is possible to bend the optical fiber cable 101 in the intended direction only with the configuration equivalent to the holding portion 3 If possible, the guide 5 may not be provided. That is, whether or not to provide the guide portion 5 is optional.

  Moreover, in the said embodiment, although the opening location of the 1st recessed part 21 was turned to the right, and the opening location of the 2nd recessed part 22 was turned to the left, it does not turn these opening locations in the opposite direction. Is optional. For example, when the opening of the first recess 21 is directed to the right, the opening of the second recess 22 may be directed to a direction other than the right. For example, the opening of the second recess 22 is downward. Or it may be directed upward. Even in these cases, since the opening portions of the two concave portions are not directed in the same direction, the workability when attaching the optical fiber cable guide 1 to the optical fiber cable 101 can be improved.

  The function realized by one component in each of the above embodiments may be realized by a plurality of components. In addition, the functions implemented by a plurality of components may be configured to be implemented by one component. In addition, part of the configuration of each of the above embodiments may be omitted. In addition, at least a part of the configuration of each of the above-described embodiments may be added to or replaced with the configuration of the other above-described embodiments.

[Supplement]
It should be noted that, as is apparent from the exemplary embodiments described above, the fiber optic cable guide of the present disclosure may further have the following configuration.

  First, in the optical fiber cable guide of the present disclosure, the holding portion holds the flexible boot portion provided at one end in the insertion / removal direction of the connector in a curved state in a direction intersecting the insertion / removal direction of the connector. Thus, the optical fiber cable in a state of being passed through the inside of the boot portion may be configured to be able to be held in a curved state in a direction intersecting with the insertion / extraction direction of the connector.

  According to the optical fiber cable guide configured as described above, the optical fiber cable in a state of being passed through the inside of the boot portion can be held in a curved state in a direction intersecting with the insertion / extraction direction of the connector.

  Further, in the optical fiber cable guide according to the present disclosure, the first peripheral wall and the second peripheral wall have the boot portion with the direction in which the axis corresponding to the center of curvature of the boot held in a curved state extends. The hinge portion and the lock portion are configured to be able to be held in and held from both sides in the width direction, and the hinge portion and the lock portion are a first virtual surface perpendicular to the width direction assumed to be in contact with the outer surface of the first peripheral wall portion It may be provided at a position that fits between a second virtual surface perpendicular to the width direction assumed to be in contact with the outer surface.

  According to the optical fiber cable guide configured as described above, the hinge portion and the lock portion are disposed inside between the widthwise ends of the first peripheral wall portion and the second peripheral wall portion. Therefore, when arranging a plurality of optical fiber cable guides in the width direction of the first peripheral wall portion and the second peripheral wall portion, the hinge portions and the lock portions interfere with each other between the optical fiber cable guides at adjacent positions. There is nothing to do. Therefore, even when the plurality of optical fiber cables are arranged in close proximity to each other, the possibility that the optical fiber cable guide can be properly attached to such an optical fiber cable can be enhanced.

  Further, the optical fiber cable guide of the present disclosure is a guide for guiding the optical fiber cable extending from the boot held by the holding portion to the outside of the boot in a direction intersecting with the insertion and removal direction of the connector. You may have a part.

  According to the optical fiber cable guide configured as described above, the optical fiber cable extending to the outside of the boot portion can be guided by the guide portion in the direction intersecting with the insertion / extraction direction of the connector.

  Further, in the optical fiber cable guide of the present disclosure, the guide portion is provided integrally with the first peripheral wall portion, and the outer peripheral surface of the boot portion is fitted to the first peripheral wall portion when the boot portion is fitted. A first recess is provided that surrounds in three directions other than the opening, and a second recess that surrounds the outer periphery of the optical fiber cable in three directions other than the opening when the optical fiber cable is guided in the guide portion The first recess and the second recess may have their respective opening points directed in different directions.

  According to the optical fiber cable guide configured as described above, the opening locations of the first recess and the second recess are directed in different directions. Therefore, even if a force that displaces in the same direction acts on the boot portion fitted in the first recess and the optical fiber cable introduced in the second recess, it is suppressed that both are simultaneously removed from each recess can do.

  DESCRIPTION OF SYMBOLS 1 ... Optical fiber cable guide, 3 ... Holding part, 5 ... Guide part, 11 ... 1st peripheral wall part, 12 ... 2nd peripheral wall part, 13 ... Hinge part, 15 ... Locking part, 15A ... 1st engaging part, 15B: second engagement portion, 16: first notch portion, 17: second notch portion, 18: curved wall, 19: side wall, 21: first recess, 22: second recess, 101: fiber optic cable , 103 ... connector, 105 ... boot portion.

Claims (5)

An optical fiber mounted on a connector provided at one end of an optical fiber cable and guiding the optical fiber cable so that the optical fiber cable extends from the connector in a direction intersecting with the insertion and removal direction of the connector A cable guide,
And a holding portion configured to be able to hold the optical fiber cable in a state in which the optical fiber cable is bent in a direction crossing the insertion / removal direction of the connector at one end in the insertion / removal direction of the connector,
The holding unit is
A first peripheral wall and a second peripheral wall connected so as to be openable and closable via a hinge;
When the first peripheral wall and the second peripheral wall are closed, the first peripheral wall and the second peripheral wall are bridged between the first peripheral wall and the second peripheral wall. And a lock portion in a locked state for restricting the peripheral wall portion from being opened,
When the first peripheral wall portion and the second peripheral wall portion are closed, the holding portion is configured to hold the optical fiber cable in a position to be sandwiched between the first peripheral wall portion and the second peripheral wall portion. A state in which the first peripheral wall portion and the second peripheral wall portion are opened so as to be detachable from the optical fiber cable; A fiber optic cable guide that is configured to be. A fiber optic cable guide according to claim 1, wherein
The holding portion holds the flexible boot portion provided at one end in the insertion / removal direction of the connector in a curved state in a direction intersecting with the insertion / removal direction of the connector, whereby the inside of the boot portion is formed. A fiber optic cable guide configured to be able to hold the fiber optic cable in a state of being passed through in a state of being bent in a direction intersecting with the insertion and removal direction of the connector. A fiber optic cable guide according to claim 2, wherein
A direction in which an axis corresponding to the center of curvature of the boot portion held in a curved state extends is a width direction,
The first peripheral wall portion and the second peripheral wall portion are configured to be able to sandwich and hold the boot portion from both sides in the width direction,
The hinge portion and the lock portion are assumed to be in contact with the first virtual surface perpendicular to the width direction assumed to be in contact with the outer surface of the first peripheral wall and in contact with the outer surface of the second peripheral wall. A fiber optic cable guide provided at a position that fits between the second virtual plane perpendicular to the width direction. A fiber optic cable guide according to claim 2 or claim 3, wherein
An optical fiber cable guide having a guide portion for guiding the optical fiber cable extending from the boot portion held by the holding portion to the outside of the boot portion in a direction intersecting the insertion / extraction direction of the connector . A fiber optic cable guide according to claim 4, wherein
The guide portion is provided integrally with the first peripheral wall portion, and
The first peripheral wall portion is provided with a first recessed portion that is in a state of surrounding the outer periphery of the boot portion in three directions other than the opening when the boot portion is fitted.
When guiding the optical fiber cable, the guide portion is provided with a second recess that surrounds the outer periphery of the optical fiber cable in three directions other than the opening portion,
The first recess and the second recess are directed in different directions at their respective opening points.

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