RU2205486C1 - Method for routing fiber-optic cable over overhead power transmission line - Google Patents

Abstract

FIELD: electrical engineering; overhead routing of fiber-optic cable on power transmission line conductors. SUBSTANCE: method is used for routing fiber-optic cable over overhead power transmission line that has supporting structures. Fiber-optic cable is wound on two spools at two ends of cable, then it is wound on line conductor with aid of two winding machines moving over conductor in two opposite directions; each winding machine has spool with fiber-optic cable wound on it. After entire fiber- optic cable is reeled off the spool, its end is welded to next fiber-optic cable section wound on line conductor and welded joint is covered with sealed junction sleeve secured on conductor by means of clamps. EFFECT: facilitated procedure, enhanced reliability and economic efficiency, reduced labor consumption. 4 cl, 4 dwg

Description

 The invention relates to methods for aerial laying of a fiber optic cable (FOC).

 Known methods of winding a wok on a wire overhead power lines (power lines) [1, 2] using a winding machine on which a coil with wok is located. The winding machine is moved along the power line wire, while the coil rotates around the wire, describing a spiral path.

 Closest to the invention is a method of laying a wok on a power line wire [3], which consists in spiral winding a wok on a wire using a winding machine and joining the wok segments to each other using detachable connectors in a sleeve that is secured to the power line support, while A wok is wound on two coils.

 A disadvantage of the known method [3] is that the detachable connectors are pre-installed at the ends of the wok segment, which is a laborious and expensive operation, while the connectors can be broken during installation. Moreover? Before starting the wok, it is necessary to accurately measure the distance between the supports along the entire length of the power transmission line and prepare the wok segments so that when wound, the ends of the wok with connectors are always on the supports, which also increases labor costs.

 The objective of the invention is to provide a simple, reliable and economical method of laying a wok on the wire of an overhead power line.

 The specified technical result is achieved by the fact that in the method of laying a fiber optic cable (FOC) on an overhead power line wire (power transmission line) containing spaced supports, which consists in winding the FOC on two coils from two ends of the cable, winding the FOC on the wire by moving along wire winding machine containing a coil with wok wound on it, and after winding the entire wok from the coil connecting the end of the wok to the end of the next section of the wok wok wound on coils so that the middle of the cable segment was between near coils, coils are fixed on two winding machines that move along the wire in opposite directions, and after winding the entire wok from the coil, the end of the wok is connected to the end of the next section of the wok, wound on the power line, by means of a welded joint, which is placed in a sealed connection sleeve, fixed to the wire with clamps.

 At a certain distance from the support, the winding machine is stopped, the wok is fixed on the wire using the first temporary clamp to ensure the wok is tensioned, the winding machine is moved around the support and mounted on the wire, and the wok is placed in a groove located around the support and fixed to the wire on both sides supports using second time clamps. Then, the wok and trough are simultaneously fixed to the wire on each side of the support using one permanent clamp, after which the temporary clamps are removed from the wire.

 To remove the wok from the wire it is passed through the channel of the insulator, fixed at one end to the wire using the first fastener, and the other end to one of the power transmission poles through the second fastener.

 In FIG. 1 shows two coils with a wound wok section; figure 2-4 shows various fragments of power lines with EQA according to the proposed method of laying.

 The proposed method is implemented as follows.

 A wok segment is wound on two coils A and B (Fig. 1) from two ends of the cable, while the middle of the wok segment is located between the coils. Coils are installed on two winding machines 1 (Figs. 2–4), which are mounted on a power line 3 near the support 2 and wound the wok on the wire using a winding machine moving along the wire, which are moved in opposite directions. Machines can be moved along the wire simultaneously or alternately. After winding the entire wok from the coil, the end of the wok is connected to the end of the next section of the wok, wound on the power transmission line, by means of a welded joint, which is placed in a sealed coupler, fixed to the wire with clamps.

 At a certain distance from the support 2, the winding machine 1 is stopped, the wok is fixed on the wire 1 using the first temporary clamp (not shown) to ensure the wok is tensioned, the winding machine 1 is moved around the support 2 and installed on the wire 3, and the wok is placed in the groove 5 located around the support 2 and mounted on the wire 3 on both sides of the support 2 using the second and third time clamps (not shown), then the wok is fixed to the wire 3 using the fourth temporary clamp (not shown).

 Then, the wok and groove 5 are simultaneously fixed to the wire 3 on each side of the support 2 using one permanent clamp 4, after which the temporary clamps are removed from the wire 3. For fixing the wok and grooves at one support, only two permanent clamps are used, and the temporary clamps are used repeatedly when attaching other grooves to the wire at subsequent supports, which reduces the cost of installation and facilitates it.

 Next, the winding machine 1 is moved along the wire 3, winding the wok to it until the next support 2, where the operation of bypassing the support using the clamps 4 and the groove 5 is repeated. This continues until the technological stock of the wok necessary for making the connection remains on the coil with the end of another wok segment.

 The described procedure is repeated exactly with a new pair of winding machines with one piece of wok pre-prepared and wound on coils. The starting support, similar to 2 in FIG. 2, is selected so that after winding the cable from the coil, the end of the cable is close to the end of the cable wound earlier. FOCA fibers are welded, splices are stacked in an airtight sleeve 6 (Fig. 4) along with a technological supply of FOCs, which are fixed to the wire 3 using clamps 7. The proposed method allows you to install the coupling 6 in any place of the wire 3 power lines, where it turned out Wok, because the coupling is fixed to the wire, not to the support.

 In this way, as many sections of the wok are wound as needed to pass the entire section of the power transmission line along which the wok is wound.

 To remove the wok from the wire 3, the wok is passed through the channel of the insulator 8 (Fig. 4), fixed at one end to the wire 3 using the fastener 9, and the other end to one of the supports 2 of the power transmission lines of the fastener 10, made, for example, in the form of a rod .

 A wound wok is connected to ground equipment or a cable line using a sleeve 11, which is mounted on a support 2.

Information Sources Used
1. Patent DE 3228239, publication 02.02.1984.

 2. Patent DE 3702781, publication 11.08.1988.

 3. Patent GB 2180666, publication 01/01/1987.3

Claims (4)

 1. The method of laying fiber optic cable (FOC) on a wire overhead power line (power transmission line) containing spaced supports, which consists in winding the FOC on two coils from both ends of the cable, winding the FOC on the wire using a winding machine moving along the wire containing a coil with the wok wound on it, and after winding the entire wok from the coil connecting the end of the wok to the end of the next wok, characterized in that the wok is wound on coils so that the middle of the cable segment is between the coils, the coils are fixed on two winding machines that move along the wire in opposite directions, and after winding the entire wok from the coil, the end of the wok is connected to the end of the next section of the wok, wound on the power transmission line, by means of a welded joint, which is placed in a sealed coupler fixed to the wire with clamps.  2. The method according to claim 1, characterized in that the winding machine is stopped at a certain distance from the support, the wok is fixed on the wire using the first temporary clamp to ensure the wok is tensioned, the winding machine is transferred around the support and installed on the wire, and the wok is placed in a groove located around the support and fixed to the wire on both sides of the support using the second and third time clamps, then the wok is fixed to the wire using the fourth temporary clamp.  3. The method according to p. 2, characterized in that the wok and the groove are simultaneously fixed to the wire on each side of the support with one permanent clamp, after which the temporary clamps are removed from the wire.  4. The method according to p. 2 or 3, characterized in that for the removal of the wok from the wire it is passed through the channel of the insulator, fixed at one end to the wire using the first fastener, and the other end to one of the power transmission poles through the second fastener.

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