RU2706129C1 - Sectional insulator with connecting terminals on ends thereof and method for installation thereof on contact network - Google Patents

Abstract

FIELD: rail vehicles.

SUBSTANCE: invention relates to electrification of railways, in particular to contact network sectioning devices. Sectional insulator includes insulating elements, housings, suspensions, connecting clamps, arc suppressing horns and slides. Said housings have process cutout to accommodate contact wire when sectional insulator is fitted on solid contact wire. Height of process cutout is not less than diameter of contact wire.

EFFECT: technical result consists in improvement of reliability of sectional insulator.

1 cl, 3 dwg

Description

The invention relates to the field of electrification of railways, in particular to devices sectioning the contact network. It applies to insulators used when connecting electrical contact wires in case of sectioning.

Known sectional insulator of the contact network, designed for installation on a section of the contact network with a pre-cut contact wire and containing two rod insulating elements, between the ends of which on one and the other side are the ends of the cut contact wire, which are bonded to one side of the insulating elements they are used with arc suppressing horns, and an insulator suspension having at the ends of a device for hanging it to strings connected with a supporting cable (patent DE 19734309 C1, IPC: B60M 1/1 8, publication 04.02.1999) is a prototype.

A disadvantage of the known solution is the low reliability associated with the suspension design of a sectional insulator, the transverse suspension of which, under the influence of variable bending loads (during passage of the current collectors EPS) undergoes critical deformations leading to bending and kink.

Sectional insulators are known, the installation method of which is associated with pre-cutting a portion of the working contact wire in the zone of installation of the insulator in the contact network. Well-known sectional insulators are used on the railway network of Russia and neighboring countries are manufactured by the Moscow Electromechanical Plant (ISO-80-25 / 3; ISM-80-3; IS1M-80-25), Simferopol Electrotechnical Plant (IS-160-25) and LLC MedSil Insulator (IP 4k-120-3). Depending on the design and operating conditions (for example, on the speed of rolling stock), known insulators are designed to separate sections of a contact network with one or two contact wires, for use in a DC network with a voltage of 3 kV or alternating current with a voltage of 25 kV, or in stations docking of two kinds of current (alternating and direct) - analogues.

There is a method of mounting a sectional insulator designed to separate sections of a contact AC network containing insulating elements, which consists in pre-cutting a portion of the working contact wire in the zone of installation of the insulator in the contact network - (http://www.refsru.com/referat-22206-20. html) is a prototype.

The disadvantages of the known solutions are the multi-element design, a significant concentration of the mass of the insulator in the area of the housing and suspension device of the insulator. The complexity of the installation of the insulator associated with pre-cutting a portion of the working contact wire in the area of installation of the insulator in the contact network. The complexity of the operation of connecting the insulator and the ends of the working contact wire. In this case, the contact wire is subjected to deformation, it becomes necessary to straighten it.

The technical result, the claimed solution of which is directed towards the achievement of the method, is to increase the durability and reliability of the sectional insulator and the contact network by eliminating mechanical stresses on the sectional insulator when it is installed in the contact suspension.

The specified technical result is achieved in that in the method of mounting on the contact network a sectional insulator with connecting clamps at its ends, which consists in placing the insulator on the desired section of the contact network and hanging it on a carrier cable, and the sectional insulator is fixed on a solid contact wire by means of connecting clamps and then part of the contact wire located between the connecting clamps is removed and the remaining ends of the contact wire are bent, placing them with baking the possibility of passing the current collector. Part of the contact wire is removed so long that the remaining (undeleted) contact wire between the connecting clamps can be bent, making it possible to freely transfer the current collector from the working contact wire to the side of the sectional insulator.

The mounting method, characterized in that before removing part of the working contact wire, a sectional insulator is fixed on it, then it is suspended from the carrier cable, followed by height adjustment above the level of the rail head.

The installation method, characterized in that before removing part of the working contact wire, the sectional insulator is suspended from the carrier cable, adjusted in height above the level of the rail head, and then the sectional insulator is fixed to the contact wire.

Installation method, characterized in that the ends of the contact wire are folded up.

The technical result, the achievement of which the claimed solution is directed in terms of the arrangement of a sectional insulator, is to increase reliability, durability and overall performance.

The specified technical result is achieved by the fact that the sectional insulator contains insulating elements, housings, suspensions, connecting clamps, horns holders, arcing horns and side clamps, moreover, a technological cutout is made in the housing, which allows installing a contact wire in it when installing a sectional insulator on a solid contact wire .

Sectional insulator, characterized in that the height of the technological cutout is not less than the height of the contact wire.

The claimed solutions are specified in FIG. 1-3, where in FIG. 1 shows a sectional insulator of the claimed design mounted on a contact network, in FIG. 2 shows the design of a sectional insulator; FIG. 3 is a section AA of FIG. 2.

As is known, a sectional isolator of a contact network is a device designed to isolate two adjacent sections of a contact network, providing passage of current collectors of railway electric rolling stock from one section of the contact network to another.

Sectional insulators are designed for longitudinal sectioning, electrical separation of sections on contact networks of direct and alternating current, phase separation and the creation of neutral inserts and must provide reliable current collection and smooth passage of current collectors along them.

The inventive sectional insulator consists of insulating elements 1 and 2, which provide the necessary insulating strength of the structure, buildings 3 and 4, designed to combine all the elements of the insulator into a single structure, suspensions 5 and 6, designed to hang on the strings 7 of the insulator to the supporting cable 8. The connecting clamps 9 and 10 are designed to connect the insulator to the contact wire 11. The suppressing horns 12 and 13 are designed to extinguish the arc that occurs when the current collector skid passes through the insulator and is equipped with the inhabitants of the horns 14 and 15. The metal clamps 16 and 17 (busbars or contact wires) are designed to ensure a smooth transition of the current collector run from the working contact wire to the sectional insulator. A technological cutout 18 is made in the housing (3 and 4) of the inventive sectional insulator, which ensures that, when the sectional insulator is installed on a continuous contact wire 11, it is possible to place the contact wire in the technological cutout 18.

Installation of the inventive sectional insulator is as follows.

Before mounting the sectional insulator, a neutral (insulating) insert 19 is “cut” into the supporting cable 19. The neutral insert can be made:

a) from tension smooth-rod insulators;

b) from a bar and insulators;

c) from a piece of a supporting cable and insulators.

The middle of the neutral insert should be above the middle of the sectional insulator. Prepared for installation, the insulator is fixed on horizontal bars, to exclude its damage and violation of regulation during transportation and installation. The suspension of the sectional insulator to the support cable is made on strings 7, which are installed on the support cable 8 behind the neutral insert. The height of the suspension of the sectional insulator over the contact wire is regulated by changing the length of the strings 7 on which the insulator hangs. The sectional insulator is laid on an uncut working contact wire 11 which is located in the technological cutout 18 of the housings 3 and 4 of the sectional insulator, after which the connecting clamps 9 and 10 are fixed. Using tightening devices, they attach slack to the section of the working contact wire 11 on which the sectional insulator is installed. Cut a section of the contact wire under the insulator. The ends of the contact wire left after the connecting clamps are bent up.

The load is transferred to the sectional insulator smoothly. When transferring the load, it is necessary to monitor the reliability of the connection clamps 9 and 10. The mounted sectional insulator must be height-adjustable by (vertical) strings 7. The lower slip plane of the current collector along the sectional insulator is 20 ... 30 mm higher than the neighboring points of suspension of the contact wire. The position of the longitudinal axis of the sectional insulator is checked, it must coincide with the axis of movement of the current collector skid. If the longitudinal axis of the sectional insulator deviates more than ± 50 mm, it is necessary to adjust the position of the insulator relative to the axis.

The difference in the installation of the prototype is that before installing the sectional insulator, the area of the contact wire with the help of special devices, attach slack. Cut a section of the contact wire with a length equal to the length of the sectional insulator. The formed ends of the working contact wire are treated (remove burrs, align the cut plane). Suspend the sectional insulator on the strings to the supporting cable, adjust the height of the suspension of the insulator (the axis of the sectional insulator must coincide with the axis of the contact wire). Connect the ends of the working contact wire to the ends of the sections of the contact wire of the sectional insulator using standard butt clamps.

Thus, the claimed solutions regarding the installation of the sectional insulator and the design of the sectional insulator allow using the following advantages:

- the contact wire is not deformed when it is tightened before installing the insulator in the contact suspension;

- it is not necessary to grind the contact wire after cutting it before installing it in the clamp;

- the sectional insulator is not exposed to harmful mechanical influences when it is installed in the contact suspension (shock, bending, etc.),

which together allows to increase the durability, reliability and efficiency of the contact network with the claimed sectional insulator.

Claims (1)

Sectional insulator containing insulating elements, housings, suspensions, connecting clamps, extinguishing horns and side clamps, characterized in that the housings are made with a technological cut-out, which allows installing a sectional insulator on a solid contact wire with the possibility of placing a contact wire in it, while the height of the technological cut-out no less than the diameter of the contact wire.

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