DE19641057A1 - Running device for attachment of optical fibre cable to overhead power line - Google Patents

Abstract

The device rolls on front and rear wheels (AR,FR) along the overhead power cable (ES), unreeling nonconductive plastic strings or tapes (e.g. AE1) from supply reels (VS1) through adhesive-coating devices (TE1). The optical fibre (OC) is unwound from a suspended drum (VT) and laid along the underside of the cable before the strings or tapes are wrapped around both. Where two supplies (VS1,VS2) of string or tape are utilised, they are coated with adhesive from a common source (KL) and wound in the same or opposite directions. The adhesive may be applied continuously from impregnated rollers or spray nozzles, or at intervals spaced apart by means of a controlled pump.

Description

The invention relates to a device for lashing optical cable to a cable with at least one Supply spool that contains a lashing element, the pre direction is designed so that ent in their longitudinal movement long the supply spool rotates around the line rope and so the lashing element (AE1) helically the cable (ES) and the optical cable (OC) looped around is, especially after patent. . . . (Patent application P 19614839.1).

Device (AVK) for attaching an optical cable (OC) to a cable (ES) with at least one supply spool (VS1), which contains a lashing element (AE1), the Supply spool (VS1) with simultaneous longitudinal movement of the Device rotates around the rope around it and so that Lashing element (AE1) helically the cable (ES) and looping the optical cable (OC),

From the earlier application P 19614509.0 it is known to Strapping an optical cable to use an adhesive tape. A supply spool with the lashing strap is by means of a Lashing device helically around the cable and the optical cable looped after either a protective film, that the sticking together of the various bonds of the Lashing tape was prevented, removed or after the reel len an applied adhesive was activated, for example by heating or applying a second compo nente. Particularly difficult to remove the protective film both the handling and the functioning of the front  direction; the adhesive is also subject to an aging process zeze.

The invention is based on the problem of identifying a way conditions, such as an improved lashing of the optical cable can be achieved and the handling of the lashing material is simplified.

This problem is with a device of the beginning mentioned type by the in the characterizing part of the claim 1 listed features solved.

By means of the further developed device, the first Weight of the supply reel lower and the pulling force of the Tape compared to tapes already provided with adhesive much smaller.

Depending on your needs, different types of rivers can be used or viscous adhesives can be used harden directly at the place of gluing. Depending on the need and use Flat lashing straps or threads with circular Cross section can be used. Liability is improved. Problems with protective films or aging problems are avoided avoided.

Further advantageous developments of the invention are in specified in the subclaims.

The invention is explained in more detail with reference to figures.

Show it:

Fig. 1, the device according to the invention in a circuit diagram and

Fig. 2 shows an impregnation chamber.

In Fig. 1, a lashing device AVK for mounting an optical cable OC on a line cable is illustrated an overhead line. The optical cable OC is applied to a storage drum VT, which is rotatably mounted and either attached to the device KVK or arranged on the floor. The lashing element AE1 is wound on a pre-spool VS1. This can be designed as a rotating spool from which the lashing element is unwound, or it can be designed with or as a fixed spool from which it is pulled off. The lashing element AE1 is passed through a coating device TE, here a Tränkkam mer, coated here with an adhesive substance, the adhesive KL, and wrapped around the cable ES and the optical cable OC. This is done by moving the Anlaschvorrich device in the direction of the cable, here from left to right, and at the same time rotating the supply spool and the coating device around the cable. The lashing device is guided on the cable by wheels, here only a front wheel AR and an output wheel FR are shown. It can either be pulled or have its own drive.

The lashing device shown contains a second front council reel VS2 and a second coating device TE2, the in the same or opposite direction around the Rotate the line rope so that through a second bracket AE2 a second spiral in the same stroke or a Kreuzwendel arises. The glue is supplied from a central storage container VB.

Depending on the design of the supply spools and the coating device can still brake devices for the lashing elements AE1, AE2 be necessary so that they always with the required voltage around the cable and the optical Cables are wrapped.

It is of course also possible that the lashing two or even several coats in succession goes through directions. Sili, for example, can be used as the adhesive  Use adhesive, UV-curing glue or adhesive resins be det.

As a lashing element is preferably an adhesive and non-conductive plastic tape used either one has a circular cross section or out as a flat ribbon leads is. The flat strip only has to be coated on one side the. The lashing element can be made of aramid yarn, for example consist and can also be composed of several components sets. In principle, a metal wire can also be used will.

In FIG. 2, the basic structure of a Tränkeinrichtung RK is shown. It essentially consists of a housing GE which surrounds an impregnation chamber TR. The lashing element AE1 is guided through a rounded inlet opening EO into the impregnation chamber, coated with adhesive and through an outlet opening AO of the storage container VB, which contains an adhesive scraper AB, to the line cable. The adhesive scraper is attached with an MU nut. The adhesive supply can be interrupted by a valve VE.

It is also possible to apply the adhesive at intervals Apply lashing element. This can be done by an electrical or mechanically controlled pump, which, by a controlled rotating drive wheel, for example by 5 cm coated every meter of the lashing element. Hereby can save glue and the supply of adhesive material sufficient for a longer laying distance.

The impregnation chamber is included with a fastening device BE connected to the lashing device and rotates with it the line rope.

Claims (14)

1. Device (AVK) for attaching an optical cable (OC) to a cable (ES) with at least one supply spool (VS1), which contains a clip element (AE1), the device being designed such that when it is moved longitudinally along the cable the supply spool (VS1) rotates around this and so the lashing element (AE1) wendelför mig the line cable (ES) and the optical cable (OC) is applied looping, characterized in that the supply spool (VS1) a coating device (TE) spatially assigned is, the Anlaschele element (AE) which is unwound from the supply reel (VS1) is coated with an adhesive substance (KL). 2. Device (AVK) according to claim 1, characterized, that each supply spool (VS1) has at least two coating device (TE) for coating with several layers of adhesive substances is provided. 3. Device according to one of the preceding claims, characterized, that for applying the lashing elements (AE1, AE2), before preferably in a cross lay, two supply spools (VS1, VS2) with assigned coating devices (TE) are provided. 4. Device according to one of the preceding claims, characterized, that as coating devices (TE) an impregnation device (TK) is provided. 5. Device according to one of claims 1 to 3, characterized, that as a coating device (TE) an impregnated role is provided.   6. Device according to one of claims 1 to 3, characterized, that as a coating device (TE) a spray device is provided. 7. Device according to one of the preceding claims, characterized, that a controlled pump is provided with which an inter vallweise coating is carried out. 8. Device according to one of the preceding claims, characterized, that a supply spool (VS1) rotating about its axis is provided hen, from which the lashing element (AE) is unwound. 9. Device according to one of the preceding claims, characterized, that the supply spool with its axis approximately in the direction of deductible lashing element (AE) is arranged. 10. Method of attaching an optical cable (OC) a cable (ES), in which a device (AVK) with at least one supply spool (VS1) along the Line rope (ES) moves and the supply spool (VS1) around Line rope rotates so that this and the optical cable (OC) is wrapped helically by the lashing element (AE), characterized, that the lashing element (AE) after unwinding or pulling off from the supply spool (VS1) coated with an adhesive (KL) becomes. 11. The method according to claim 10, characterized, that the lashing element by soaking, rolling up or spraying (AE) is provided with adhesive (KL). 12. The method according to claim 10 or 11,  characterized, that at least two layers of adhesive (KL) on the Lashing element (AE) are applied. 13. The method according to any one of claims 10 to 12, characterized, that the coating with adhesive (KL) takes place at intervals. 14. The method according to any one of claims 10 to 13, characterized, that two lashing elements (AE1, AE2), preferably in a cross blow, can be used for lashing.