HU224476B1 - Method for lining cables on pillars of contact lines and lines for automatic blocking of railways - Google Patents

Abstract

The present invention relates to the construction of telecommunications on railways, in particular to the laying and installation of communication cables on overhead lines and signaling equipment lines. As a first step, the load-bearing capacity of the railway support columns is tested, and guide rollers mounted on the support column brackets suitable for suspending the cables are placed under the tension of the auxiliary rope. The auxiliary rope is then connected with an auxiliary cable and the auxiliary rope is used to pull the cable through the deflection rollers at a speed of 0,3 to 0,8 m / s until the maximum sag without touching the ground. The fiber-optic cable is then secured to the supporting columns and the specified operating tension is extended by a tensile force of 5 to 10%, leaving it to stand for at least 5 minutes. The support clamps are placed on the support columns and the fiber optic cable is transferred from the guide rollers to the support clamps. The procedure significantly shortens and makes cheaper the construction of the communication network with fiber optic cables (more favorable than when the cables are sunk into the ground). The developed procedure enables the widespread application of the mechanized method of cable suspension, ensures the integrity of the communication line, can be repaired more quickly in the event of a failure, and also ensures the reliable operation of the communication network.

Description

FIELD OF THE INVENTION The invention relates to the field of railway telecommunications, namely to laying and installing communication cables on the posts of railway overhead lines and signaling signaling equipment wires.

State of the art

On the railways, the communication cables, together with the wires of the signaling device, are laid in special troughs in the trenches dug along the track. (E. E. Áss et al., Journal of Transportation 1988, pp. 175-218). This way of laying cables is very labor-intensive and complicated.

Laying cables in the form of power transmission lines is also known on the railways (E. E. Áss et al., Journal of Transport, 1988, p. 238).

The electric power lines are mounted on reinforced concrete columns. The procedure consists of unwounding the wires, connecting them and hanging them on the supporting posts by attaching them to insulators. The process is very labor-intensive, as the cable is pulled out on the ground using special machines and equipment, and in difficult-to-reach sections, it is then connected and lifted onto the support posts. Once the wires are connected, they are lifted onto the support column by means of pliers or small ropes. After being lifted, the wires are stretched to the required overhang and secured to the insulators with lashing wire or special clips.

The installation of power lines on railway columns is a labor-intensive, lengthy and complicated process, and does not provide the appropriate level of connection under induced electromagnetic fields.

It is known that fiber optic cables are used for the installation of electric power lines, which are easy to repair and reliable.

A method for installing a fiber optic cable to a high voltage power line is known. (RU 2118028, H 02 G 1 / 02,20.08.98).

The fiber optic cable is unwound from the cable drum on the ground through the guide rollers on the first column and connected to the cable pulling machine on the ground wire. With this machine, the fiber optic cable is pulled along the grounding rope to the next support post, and after the entire length of the fiber optic cable is pulled out, the machine for fastening the cable with clips is moved from the end point of the unwinding.

A method for hanging an optical cable on a power transmission line is known (RU 2115984, H02 G 1 / 04,20.07.98). The method comprises, on the one hand, suspending the deflection rollers together with the auxiliary rope on the transmission line poles set up at a considerable distance from each other, then attaching the optical cable to be suspended to the auxiliary rope, and on the other hand This cable is in the form of a loop with both ends facing the unwinding of the optical cable construction length.

The disadvantage of this process is that the fixing of the optical cable requires a labor-intensive, highly skilled technician to carry out the work and that two types of support columns have to be constructed and installed: the column holding the guide rollers and the column for fixing the optical cable.

The method of laying the cables according to the invention for the posts of railway overhead and signaling equipment wires is the closest to that described in E.E.Ass et al., 1988, page 238.

Description of the Invention

The main object of the present invention is to provide a simple and economical method for laying fiber optic cables on railways with the aim of providing high quality connectivity in addition to the induced electromagnetic fields. The present invention solves the problems of crossing rivers, streets, hills and built-up sections.

The problem is solved by placing the fiber optic cable on the wire of the railway overhead contact line and signaling protection device.

The essence of the procedure is to first test the load-bearing capacity of the support columns and to mount the brackets to the guide rollers on suitable columns to pull the auxiliary rope. The rope is pulled out under tension. The auxiliary rope is then connected to the fiber optic cable and the cable is pulled up through the pulling rollers at a speed of 0.3-0.8 m / s with maximum sag but without touching the ground. Next, the fiber optic cable is secured to the support post and tensioned to a tension force of 5-10% above the specified normal tension, at which point the cable is allowed to stand for at least 5 minutes and the support posts are mounted on the support posts and the fiber optic cable is moved from the guide rollers to the retaining clips.

In the case of an overhead rail, the fiber optic cable is preferably placed on the outside of the support column.

In a residential area, the distance from the ground to the ground must be at least 5 m, at least 0.4 m from 6 to 25 kV live parts, at least 4.5 m from the floor of railway wagons and at least 1.5 m from the horizontal of the nearest parts of buildings.

The distance between the optical cable and the rope must be at least 1 m.

The fiber optic cable shall preferably be placed under the high voltage conductor on the support pillars of railway signaling equipment so that the distance between the lower point of the fiber optic cable and the ground is at least 5 m, at least 6 m in uninhabited areas and at least 7.5 m m.

The test results of the support columns are determined on the basis of the actual load-bearing capacity.

According to the test results, the support columns are divided into three groups:

- masts for which suspension is possible without limitation, ie masts of at least the load-bearing capacity required by the technical design or standard;

HU 224 476 Β1

- support columns with a load capacity of up to 10% less than that required (cable suspension possible);

- columns which completely deplete the safety margin, on which the suspension of the cable cannot be allowed due to the risk of failure.

Brackets that are suitable for hanging a fiber optic cable are mounted on brackets.

The rope is pulled under tension rollers already fitted to the brackets. Once the rope is connected to the fiber optic cable, they begin to pull the fiber optic cable slowly and evenly with minimal tensile force. Make sure that the fiber optic cable does not hang over the columns, but do not touch the ground. After the cable has been pulled out on the guide rollers, it is fastened to the support column by means of spiral clamps. These clips are fastened to the fastening elements of the support column. The cable is then stretched.

The maximum stress of the fiber optic cable during installation is determined by the stability of the optical properties of the cable and must not exceed 5-8 kN.

The novelty of the invention consists in the sum of technological operations, the use of post columns, the installation of deflection rollers on the support columns to which the cable can be attached.

Establishing a reliable communication network is ensured by the specific order of installation of the fiber optic cable on the support posts and the specified speed of passage through the guide rollers.

Best embodiment of the invention

First, the suitability of the support columns for hanging a fiber optic cable is determined.

The load-bearing capacity of reinforced concrete columns shall be at least 45 kNm.

The brackets are mounted on brackets using brackets at the required height points. The deflection rollers are then mounted on the brackets. Anchor points are required to suspend the 4.0 km fiber optic cable.

The rope is pulled through the pre-mounted guide rollers with an adjustable draw bar. After the rope has been pulled, it is fastened to the outermost post of the designated anchorage section in the stretched position.

Using a cable connector, the fiber optic cable (located on the drum on the trailer) is connected to the rope, making sure the rope is stretched during the connection. On the other side of the fastening section, the rope is connected to a puller (reel).

Next, the fiber optic cable is pulled out smoothly through the guide rollers at a speed of 0.4 m / s.

In the meantime, the drum, from which the cable is unwound, must be braked to ensure maximum cable penetration in the spacing without touching the ground.

After the fiber optic cable has been pulled out, a mounting kit is unwound from the end of the winch drum. The spiral clamp is mounted at the end of the mounting bracket and the cable is secured to the post. The assembly reserve must be unwound and secured to the support column. This process must be repeated at each recording location.

A support clip is mounted on each post suitable for hanging the fiber optic cable. The cable is removed from the guide rollers and placed on the retaining clip. After the installation of the DA191193 / 28 fiber optic cable, the cable must be stretched with a tensile force of 6.6 kN.

The tension force shall be checked by means of a dynamometer. The fiber optic cable is allowed to stand for 10 minutes when the tension is exceeded by 5-10%.

Industrial applicability

The use of railway overhead and signaling equipment wires allows for a shorter and cheaper deployment of fiber optic communication (compared to when these wires are laid in the ground). In addition, this procedure enables the widespread use of a mechanized method of suspension, ensures the integrity, rapid repair and reliable operation of the communication network.

Claims (1)

PATIENT PERSONALITY Method for Suspending Fiber Optic Cables on Support Pillars of Rail Lines and Signal Protection Plugs, which consists of loosening the cable and affixing it to the supporting columns, comprising placing the fiber optic cable on the rail supporting columns, in the first step, to examine the bearing capacity of the support column. and select the support columns that are suitable for positioning the fiber optic cable, then mount brackets on the selected columns to which the guide rollers are attached, through which the rope is pulled out during tension, connected to the fiber optic cable, and then the cable through the guide rollers with the rope 0 , At a speed of 3-0.8 m / s without pulling it out, without touching the ground at maximum folding, and fixing the cable on the support column, stretching with a force of 5-10% it exceeds the required operating tension and is left to stand for at least 5 minutes, then the retaining clips are mounted on the support column and the cable is transferred from the guide rollers to the retaining clips.