JPS63248008A - Compound transmission cable - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a composite transmission cable in which at least two transmission lines are formed by a coaxial line and an optical fiber.

[Summary of the invention]

The composite transmission cable of the present invention uses a metal pressure tube in which an optical fiber is inserted into a part or all of a plurality of twisted conductors that form the center conductor of a coaxial cable, and twists the metal pressure tube and conducting wire. The center conductor of the coaxial cable is formed by Therefore, in addition to the coaxial cable transmission path, this composite transmission cable has 1 or 2
The optical fiber transmission path described above is formed in the twisted conductor of a coaxial cable, and a cable having the same diameter as a conventional coaxial cable can realize both coaxial cable transmission and optical fiber transmission.

[Conventional technology]

Double armored coaxial cables have traditionally been used as deep-sea exploration cables, but in recent years, as exploration purposes have diversified and the number of information devices has increased, the number of transmission channels has increased for such cables as well. is requested to do so.

[Problem that the invention seeks to solve]

Therefore, we gathered other communication lines to the coaxial cable,
Composite cables have been developed, but such composite cables with increased communication channels have a problem in that they have a large outer diameter and are difficult to handle.

Furthermore, when used as an exploration cable, work is always required to unwind it from the winding drum or store it, but in this case, if the outer diameter and weight of the cable increases, the groove dimensions of the conventional winding drum etc. must be changed. There is a problem in that it becomes necessary to do so, forcing investment in improved equipment.

The present invention has been made in view of these problems.
The present invention aims to provide a composite transmission cable that has the same diameter as a conventional coaxial cable and has an increased number of transmission channels.

[Means for solving problems]

The composite transmission cable of the present invention uses a metal pressure tube that protects the optical fiber for part or all of the plurality of twisted conductors that serve as the center conductor of the coaxial cable, and the optical fiber is inserted into the metal pressure tube. It is designed so that it can be inserted through it.

[Effect]

The center conductor of the coaxial cable is made up of multiple strands of conductor wire, and by making part or all of this conductor a hollow metal tube, it can be used as the pressure-resistant layer of the optical fiber. It is possible to create a composite cable with the same diameter as a cable with the characteristics of a cable, but with the number of communication channels increased by the number of optical fibers.

〔Example〕

FIG. 1 shows a perspective view of a composite transmission cable showing an embodiment of the present invention, and numeral 10 indicates a coaxial cable in which a plurality of conducting wires and conducting wires made of pressure-resistant tubes of optical fibers are twisted together as will be described later. The center conductor 20 represents an insulator holding the center conductor lO, and polyethylene resin or the like having low high frequency loss is usually used.

The outer conductor 30 of the coaxial cable is formed through the insulator 20, and is generally formed by braiding a braided wire made of copper wire or the like.

Further, this external conductor may be formed by wrapping a highly conductive metal tape or metal wire vertically or spirally.

Note that 40 indicates a protective sheath layer, and a double armored iron wire 50 is wound around the outside of this protective sheath layer 40 if necessary.

FIG. 2 shows a perspective view of an enlarged cross-section of the conducting wire constituting the central conductor 10, and is shown in FIG.

11B, IIC, IID, IIE are copper wires, 12A, 12
B indicates a hollow metal pressure tube. These hollow metal pressure-resistant tubes 12A, 12B are made of, for example, stainless steel, copper, titanium, etc., and are good conductors and hard metal pipes, and the hollow portions have three coating layers 13A, 13B.
, 13c is inserted.

Note that the hollow portion of the metal pressure tube may be filled with a filling mixture or fiber between the optical fiber and the hollow portion to prevent microbending of the optical fiber.

And copper wire 11A-11E and metal pressure tube 12A,
The conductive wires made of 12B are twisted together at a constant pitch and constitute a flexible central conductor 10.

Since the composite transmission cable of the present invention is embodied with the above-described structure, the first communication path is first formed by the coaxial portion consisting of the center conductor 10, the insulator 20, and the outer conductor 30, and then A second optical fiber 13.13 is inserted into the metal pressure tubes 12A and 12B. and a third communication path is formed.

Therefore, it was possible to create a composite transmission cable in which the number of transmission channels was increased by two systems using a cable of the same diameter and with almost no increase in weight.

The outer diameter of the center conductor 10 is approximately equal to the outer diameter of a conventional coaxial cable, and its transmission characteristics and constant pressure wave ratio (SWA)
will not deteriorate.

FIG. 3 is a sectional view of a center conductor showing another embodiment of the present invention, in which 14A is a hollow steel pipe and 14B-14G are ordinary copper wires.

In this embodiment, the hollow copper tube 14A acts as a pressure tube for the optical fiber 15 inserted therein, and is suitable for increasing the number of transmission lines by one channel compared to the conventional coaxial cable. It is.

FIG. 4 shows still another embodiment of the present invention, 1
6A-16G are all hollow steel pipes, and this copper pipe 16A
The center conductor 10 of the coaxial cable is formed by twisting 16G to 16G as conducting wires.

In this case, as described above, by inserting the optical fiber 15 into any of the hollow steel pipes, it is possible to increase the number of transmission lines as desired.

In addition, although the above-mentioned example explained the case where the total number of conducting wires was seven, this number and radius can be determined arbitrarily depending on the impedance of the coaxial cable.

〔Effect of the invention〕

As explained above, in the composite transmission cable of the present invention, the central conductor constituting the coaxial cable is composed of a collection of a plurality of conducting wires, and a part (or all) of the conducting wires are used as a hollow metal pressure tube. , because the optical fiber is inserted into it, conventional coaxial cable and
This has the effect of increasing the number of communication channels for information transmission while maintaining compatibility with the terminal equipment.

Furthermore, by making use of data on the actual use of conventional coaxial cables, communication lines newly installed using optical fibers can be evaluated, and the reliability of the composite transmission cable can be more accurately predicted.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing an embodiment of the composite transmission cable of the present invention, FIG. 2 is an enlarged perspective view of a central conductor portion, and FIGS. 3 and 4 are center conductors showing other embodiments of the present invention. FIG. In the figure, IO is a center conductor, 20 is an insulator, 30 is an outer conductor, 12A and 12B are metal pressure tubes, and 13 is an optical fiber. 30: Outer conductor Figure 2

Claims (1)

[Claims] A composite transmission cable characterized in that the center conductor of the coaxial cable is formed from a twisted conductor including a metal pressure tube that protects the optical fiber.