JP2607529B2 - Optical fiber spool - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to, for example, an optical fiber used to connect a mother ship to an unmanned underwater vehicle and transmit data signals of underwater sensors and control signals of the unmanned underwater vehicle. About the spool.

(Background of the Invention) The power of the conventional unmanned submersible is supplied from the mother ship,
The mother ship and the underwater unmanned underwater vehicle are connected by a thick cable in which the power line necessary for this and the signal line such as an optical fiber cable used for transmitting the data signal of the underwater sensor and the control signal of the unmanned underwater vehicle are combined. I was

FIG. 3 is a cross-sectional view of an example of a composite cable (10) in which such a power line and a signal line are combined. In the figure, (11) is a reinforcing core made of fiber-reinforced plastic, etc., (12) is an optical fiber core housed inside a pipe (13) such as a metal pipe or a plastic pipe, and (14) is power to an unmanned submersible. Power line to supply the above reinforcing core (11) and optical fiber core (1
The required number of pipes (13) and power lines (14) accommodating 2) are each twisted in a circular shape with the intervening substance (15), and a plastic coating layer (1
6) is applied to the composite cable (10).

However, such composite cables (10) usually have an outer diameter
Since it is as thick and heavy as 10 mm or more, unmanned submersibles used in the deep sea need to be twice as long as the depth due to the effects of tidal currents and the like. For this reason, in the conventional system for unmanned submersibles, as shown in FIG. 4, a cable drum (22) wound with a composite cable (10) is placed on a mother ship (21), and the cable (10) Large mechanical equipment such as a traction winch (23), a heave compensator that prevents instantaneous excessive tension on the cable (10) due to the motion of the ship, and a turn sheave (25) that suspends the cable (10) underwater. It is necessary to equip it, and if other handling devices are included, there is a problem that enormous cost is required only for cables. In the drawing, (26)
Is an underwater platform of the vehicle, (27) is a vehicle, and (28) is a tether cable such as an optical fiber cable connecting the underwater transmission platform (26) of the vehicle and the vehicle (27).

In order to solve the problems described above, power is supplied to the unmanned underwater vehicle as a storage battery supply, the signal line is stored as an optical fiber cable on the unmanned underwater vehicle or the mother ship, and it is fed out from either one and tied. The formula is being studied.

FIG. 5 is a schematic explanatory view of such a system, in which an optical fiber cable is used as a tether cable (38), and an unmanned submersible (35) is provided on a deck of a mother ship (31) by a crane device (34). The unmanned underwater vehicle (35) is suspended via a wire rope (33) and landed.
6), and descends deeper.
1) Upper crane device (39) or unmanned submersible (35)
The tether cable (38) is sequentially fed out from the spool (37) mounted on one or both of the insides.

(Disclosure of the Invention) The present invention provides an optical fiber spool suitable for the above-described method, and the feature of the present invention is that an optical fiber cable formed into a coil shape having a hollow portion therein is impregnated with a shape retaining agent, The spool is formed by the optical fiber cable itself.

FIG. 1 (a) is an external view of a specific example of the optical fiber spool of the present invention, and FIG. 1 (b) is a cross-sectional view of the optical fiber spool of FIG. As shown in the drawing, an optical fiber cable (3) (see FIG. 2) is formed in a coil shape (1) having a hollow portion (2) inside. The shape retaining agent is impregnated by casting or the like.

The optical fiber cable (3) is obtained by, for example, increasing the strength of an optical fiber itself to a screening level of about 3% or a fiber-reinforced plastic layer (3b) on the outer periphery of an optical fiber core (3a) as shown in FIG. ), Or a cable in which a single core or a plurality of cores of an optical fiber core provided with a winding layer of a high tensile strength fiber such as Kevlar fiber on the outer periphery of the optical fiber core are twisted.

Such an optical fiber cable (3) is wound into a coil as shown in FIG. 1, the coiled optical fiber cable (1) is put into an appropriate mold, and a shape retaining agent is poured into the optical fiber cable for impregnation. After curing, it is removed from the mold and dried to form the optical fiber spool of the present invention.

Examples of the shape-retaining agent used include those obtained by dissolving 10% by weight of ethylene / vinyl copolymer (60% ethylene, 40% vinyl) in xylene, and those obtained by dissolving ethylene / ethyl copolymer or vinyl acetate in a solvent. Can be used. Further, as the shape-retaining agent, a two-component mixed room temperature curing silicone rubber (for example, KE103 manufactured by Shin-Etsu Chemical Co., Ltd.), a one-component curing silicone rubber, or a liquid urethane rubber can be used.

In addition, as a shape-retaining agent, gelatin that has been dissolved in water and made into a high-temperature liquid may be impregnated and cooled as it is to solidify it in a gel form. It is possible.
In particular, these substances are preferable because they do not cause any pollution even if they are scattered in the sea.

(Operation and Effect of the Invention) Conventionally, a spool in which an optical fiber cable is wound on a metal or plastic reel is used for such a purpose, and when used, the outside of the winding layer (the end of the winding of the cable). It is usual to draw out from. However, in this case, since the mass of the spool is large, especially when the feeding speed is high at the start of feeding, a large initial tension is applied to the cable or the optical fiber, and the characteristics of the cable or the optical fiber may be impaired.

On the other hand, the optical fiber spool of the present invention is lightweight because the optical fiber cable itself forms the spool without using the above-mentioned reel, and the optical fiber cable is placed inside the spool (at the winding start end). ), It is possible to dive the unmanned underwater vehicle at high speed.

Also, by using the optical fiber spool of the present invention,
Since it is not necessary to use large equipment as shown in FIG. 4, the unmanned underwater vehicle system can be made compact, lightweight and inexpensive.

[Brief description of the drawings]

FIG. 1 (a) is an external view of a specific example of the optical fiber spool of the present invention, FIG. 1 (b) is a cross-sectional view of FIG. 1 (a), and FIG. 2 is a cross section of an example of an optical fiber cable used in the present invention. FIG. FIG. 3 is a cross-sectional view of an example of a conventional composite cable, and FIG. 4 is an explanatory diagram of an unmanned submersible vehicle system using the cable. FIG. 5 is an explanatory view of an unmanned submersible vehicle system using the optical fiber spool of the present invention. 1 ... coiled optical fiber cable, 3 ... optical fiber cable, 3a ... optical fiber core, 3b ... fiber reinforced plastic layer.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yuichi Tomita 19, Natsushima-cho, Yokosuka City, Kanagawa Prefecture Sumitomo Heavy Industries Machinery Co., Ltd. (72) Inventor Tetsuji Ito 1-3-1 Shimaya, Konohana-ku, Osaka, Osaka Prefecture, Japan Sumitomo Electric Industries, Ltd. No. 1-3 Sumitomo Electric Industries, Ltd. Osaka Works

Claims (7)

(57) [Claims] An optical fiber spool comprising a coil-shaped optical fiber cable having a hollow portion therein, impregnated with a shape retaining agent, and forming the spool by the optical fiber cable itself. 2. The method according to claim 1, wherein the shape-retaining agent is an ethylene / vinyl copolymer,
2. The optical fiber spool according to claim 1, wherein a plastic such as ethylene / ethyl copolymer or vinyl acetate is dissolved in a solvent. 3. The optical fiber spool according to claim 1, wherein the shape-retaining agent is a substance obtained by dissolving gelatin, agar, or the like in high-temperature water, and is a substance which becomes a gel at normal temperature. 4. The optical fiber spool according to claim 1, wherein the shape-retaining agent is a material that cures after impregnation, such as a room-temperature-curable silicone rubber or a liquid urethane rubber. 5. An optical fiber spool according to claim 1, wherein said optical fiber cable is made of an optical fiber having a high screening level of about 3%. 6. An optical fiber spool according to claim 1, wherein said optical fiber cable comprises an optical fiber core having a fiber-reinforced plastic coating layer on the outer periphery of said optical fiber. 7. An optical fiber spool according to claim 1, wherein said optical fiber cable is constituted by an optical fiber core having a winding layer of tensile strength fiber on the outer periphery of said optical fiber. .