JP2007310115A - Optical cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical cable which protects an optical fiber and keeps extended, contracted or bent state by itself. <P>SOLUTION: The optical cable 1 is characterized in that the optical fiber 3 of a curl cord type is housed in a bellows tube 2 which keeps extended, contracted or bent state. The bellows tube 2 is made of a formed synthetic resin sheet, forming a bellows composed of multiple crests and roots between both ends of the tube. The bellows part can be extended, contracted or bent and the deformation is preserved. Further, the protecting function of the optical fiber against external force is improved by using a bellows tube in which the root parts of the bellows are reinforced by adding metal rings. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an optical cable that can be easily stretched and bent.

  In recent years, with the rapid spread of FTTH (Fiber To The Home), DIY optical fiber wiring has become an important issue. In order to solve such a problem, an optical fiber called an optical curl cord has been proposed (for example, see Non-Patent Documents 1 and 2).

The optical curl cords disclosed in Non-Patent Documents 1 and 2 have a curled cord structure in which an optical cord provided with a plurality of synthetic resin coating layers on the outer periphery of a holey fiber is wound many times with the same winding diameter. . This optical curl cord is easy to expand and contract and has a feature that it can be bent in an arbitrary direction, and is considered to contribute to the dicing of in-home optical wiring.
Hiramatsu et al., “Development of optical fiber curl cord”, IEICE General Conference 2004, B-10-3 Namerikawa et al., "Development of optical fiber curl cord using holey fiber", IEICE General Conference 2004, B-10-4

However, the conventional optical curl cords disclosed in Non-Patent Documents 1 and 2 use an optical cord in which a synthetic resin coating layer is provided on the outer periphery of the holey fiber, and therefore have sufficient mechanical strength against external force. If the cord is accidentally stepped on, the fiber will be damaged.
In addition, since this conventional optical curl cord cannot hold itself in a stretched or bent state, it must be fixed to a wall surface, etc. There is also a problem in terms of design.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an optical cable that protects an optical fiber and can hold the stretched and bent state by itself.

  In order to achieve the above object, the present invention is characterized in that a curled cord-like optical fiber is housed in a bellows-like tube capable of holding a stretched state, a contracted state and a bent state. Provide optical cable.

  In the optical cable of the present invention, it is preferable that a reinforcing member for protecting the optical fiber against an external force is provided on the bellows-like tube.

In the optical cable of the present invention, the curled cord-shaped optical fiber is housed in a bellows-like tube capable of holding the stretched state, the contracted state, and the bent state. The protection function is high, and the optical fiber can be hardly damaged by an external force.
In addition, the above configuration facilitates wiring and storage of the optical cable.
In addition, the above configuration allows the extra length of the optical cable to be stored.
Moreover, the design (appearance) of the wiring of the optical cable can be improved by adopting the above configuration.

Hereinafter, embodiments of the optical cable of the present invention will be described with reference to the drawings.
1 to 4 are sectional views showing a first embodiment of the optical cable of the present invention. The optical cable 1 of the present embodiment has a configuration in which a curled cord-like optical fiber 3 is housed in a bellows-like tube 2 that can hold an extended state, a contracted state, and a bent state.

  The bellows-like tube 2 is formed by molding a synthetic resin sheet. In the present embodiment, the bellows-like tube 2 is configured by forming a bellows composed of multi-level peaks and valleys between both ends of the tube. This bellows part can be expanded and contracted and bent, and the deformed shape is maintained. The dimensions of the bellows-like tube 2, the length of the bellows portion, and the like can be appropriately set according to the usage form of the optical cable 1.

  The optical fiber 3 is composed of an optical fiber cord or an optical fiber cord in which one or two or more synthetic resin coating layers are provided on the outer periphery of the bare optical fiber, and a part thereof has a constant bending diameter. The curl cord portion is formed by winding a number of times continuously to stabilize the shape.

  As the curled optical fiber 3, it is preferable to use a holey fiber having a small bending loss for the bare optical fiber. If a holey fiber is used, the winding diameter of the curled cord portion can be reduced, so that the optical cable 1 can be reduced in diameter and size. On the other hand, if the diameter of the curled cord portion is not so limited, the curled cord portion can be formed with a relatively large bending diameter using a single mode optical fiber or a multimode optical fiber. Further, the optical fiber 3 is not limited to an optical fiber made of quartz glass, and a plastic optical fiber may be used.

  The curled cord optical fiber 3 can be expanded and contracted and bent at the curled cord portion. On the other hand, shape retention is not high, and when the curled cord portion is long, the cord is likely to hang down. In this embodiment, since the curled cord-shaped optical fiber 3 is housed in the bellows-shaped tube 2 having high shape retention, even if the curled cord portion of the optical fiber 3 is long and easily hangs down, the bellows It can be held by the tube 2 to prevent excessive sag.

  In addition, the structure of the both ends of the said optical fiber 3 is not specifically limited, Even if it is a state as it is, the optical connector for connection may be terminated.

With reference to FIGS. 1-4, the state of the bellows-like tube 2 and the optical fiber 3 in each deformation | transformation state of the optical cable 1 of this embodiment is demonstrated.
FIG. 1 shows a state where the bellows-like tube 2 of the optical cable 1 is contracted. The optical fiber 3 in the tube is in a state where the curl cord portion is contracted and the fiber length is short. The bellows-like tube 2 does not extend due to the elastic force, and as a result, the bellows-like tube 2 and the optical fiber 3 are held in a contracted state.

  FIG. 2 shows a state in which one side (left side in FIG. 2) of the bellows portion of the bellows-like tube 2 that has been contracted is stretched. As the bellows-like tube 2 is stretched, the curled cord portion of the optical fiber 3 in the tube is stretched, and the curl interval is widened. The bellows-like tube 2 is not contracted by the elastic force, and as a result, the bellows-like tube 2 and the optical fiber 3 are held in the stretched state.

  FIG. 3 shows a state in which the bellows-like tube 2 of the optical cable 1 is bent substantially at a right angle. The optical fiber 3 in the tube has a curled cord portion bent along the bellows-like tube 2 at a substantially right angle. The bellows-like tube 2 is not contracted or stretched by the elastic force, and as a result, the bellows-like tube 2 and the optical fiber 3 are held in a state bent substantially at a right angle.

  FIG. 4 shows a state in which the bellows-like tube 2 of the optical cable 1 is partially extended and bent into an inverted S shape. The optical fiber 3 in the tube has a curled cord portion that is substantially stretched along the bellows-like tube 2 and bent in an inverted S shape. The bellows-like tube 2 is not contracted or stretched by the elastic force, and as a result, the bellows-like tube 2 and the optical fiber 3 are held in this state.

Since the optical cable 1 of the present embodiment is formed by housing a curled cord-like optical fiber 3 in a bellows-like tube 2 capable of holding a stretched state, a contracted state, and a bent state, the optical cable 1 The function of protecting the inner optical fiber 3 is high, and the optical fiber 3 can be hardly damaged by an external force.
In addition, with the above configuration, the optical cable 1 can be easily wired and stored.
Moreover, the extra length storage of the optical cable 1 can be performed by having the said structure.
In addition, the design (appearance) of the wiring of the optical cable 1 can be improved by adopting the above configuration.

  FIG. 5 is a cross-sectional view showing a second embodiment of the optical cable of the present invention. The optical cable 5 of the present embodiment is similar to the optical cable 1 of the first embodiment described above, in the bellows-like tube 2 that can hold the stretched state, the contracted state, and the bent state, and a curled cord-like optical fiber. In this embodiment, a metal ring 4 is added as a reinforcing member in the valley portion of the bellows.

The optical cable 5 of the present embodiment can obtain the same effect as the optical cable 1 of the first embodiment described above, and further uses the bellows-like tube 2 in which a metal ring 4 is added as a reinforcing member in the valley portion of the bellows. As a result, the function of protecting the optical fiber 3 against external force can be improved.
Actually, even when the optical cable 5 of the present embodiment was manufactured and stepped on, the bellows-like tube 2 and the optical fiber 3 housed therein were not deformed or damaged.

It is sectional drawing which shows 1st Embodiment of the optical cable of this invention. It is sectional drawing which shows the state which extended the optical cable of 1st Embodiment partially. It is sectional drawing which shows the state which bent the optical cable of 1st Embodiment. It is sectional drawing which shows the state which extended and bent the optical cable of 1st Embodiment partially. It is sectional drawing which shows 2nd Embodiment of the optical cable of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,5 ... Optical cable, 2 ... Bellows-shaped tube, 3 ... Optical fiber, 4 ... Metal ring (reinforcement member).

Claims (2)

  An optical cable comprising a curled cord-like optical fiber housed in a bellows-like tube capable of holding a stretched state, a contracted state and a bent state. An optical cable, wherein the bellows-like tube is provided with a reinforcing member for protecting the optical fiber against an external force.

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