RU2025324C1 - Unit for mating anchor sections of contact power-supply line - Google Patents

Abstract

FIELD: railway electrification. SUBSTANCE: unit has bearing and pendant members provided with operating and nonoperative branches of carrier cables fixed on them. The cables are connected through terminals to main spring conductor and to supporting strings attached to branches of contact cords. An additional spring conductor cut by one third bears on the mentioned carrier cable operating branch so that its ends are affixed through terminals to the mentioned cable at inner sides of the main spring conductor clamps so as to form rhomb in rhomb. The latter have their bottom equipotential sides driven apart through the center by means of a dielectric spacer hinged to the additional spring conductor and rigidly attached to the main one. The conductors are arranged at both sides of the spacer so as to join the branches of contact cords through movable sealing members and slide strings. An air gap is formed through the spacer at the top and through stops below. The device effects a concurrent vertical and longitudinal movement of the mentioned branches when the ambient reveals various temperature differences with the cords being insulated against compensation overcurrents. EFFECT: higher efficiency, reduced current loss. 3 dwg

Description

 The invention relates to electrified railways, in particular to a device for securing the branches of contact wires on the transitional supports of the anchor sections of the interface contact network of alternating and direct current.

 A device for interfacing anchor sections, comprising carrier cables of working and non-working branches elastically stretched by means of support and suspension elements, supporting strings, some ends of which are connected by clamps to the contact wires of the working and non-working branches of the contact suspension, and others with corresponding bearing cables, sliding strings, one ends of which are connected to the contact wire of the working branch, the main spring wire attached by clamps to the mating spans of the bearing cable of the working branch and connected through movable insulating elements with other ends of the first group of sliding strings, clamps installed between the supporting elements and the corresponding contact wires with the separation of the latter at normalized distances [1].

 A disadvantage of the known device is that lowering the air temperature and, as a result, shortening the lengths and arrows of the sag of the bearing cables causes, and especially in half-compensated suspensions, a significant rise of the sprung branch of the working contact wire up. And since the other, non-sprung, non-working branch almost does not change in height, taking into account the contact and aerodynamic pressure from the passing current collector, it does not exclude the worker from being drawn to the non-working contact wire with an impact on the latter and damage to the clamps, insulators and the current collector itself. The temperature factor of lengthening or shortening of the compensated wires also causes significant longitudinal displacements of the contact wires in the zone of the transitional support with skewed strings, which also does not exclude their mutual contact, overflow with the burn-out of wires and delayed movement.

 The proposed device for connecting the anchor sections of the contact network contains carrier cables of the working and non-working branches that support the strings, one ends of which are connected by clamps to the compensated wires of the working and non-working branches of the contact suspension, and the other with the corresponding bearing cables, two elasticly stretched by means of support and suspension elements groups of sliding strings, one ends of which are connected to the contact wires of the working and non-working branches, the main spring wire attached by clamps to the mating spans of the carrying cable of the working branch and connected through suspension insulating elements with other ends of the first group of sliding strings, clamps installed between the supporting elements and the corresponding contact wires with the separation of the latter by a normalized distance. At the same time, an additional shortened spring wire is introduced into it, connected through hanging insulating elements to the other ends of the second group of sliding strings and attached by clamps to the mating spans of the carrying cable of the working branch with the formation of a rhombus located inside the rhombus, formed by attaching the main spring wire, with the lower sides the rhombs are centered at a normalized distance by a dielectric spacer connected rigidly to the main and pivotally with additional spring wires.

 In FIG. 1 shows a general diagram of a device for interfacing anchor sections of a contact network on a transitional support; in FIG. 2 - bearing cable of the working branch and spring wires with a spacer, top view; in FIG. 3 is a section AA in FIG. 1.

 The device contains supporting 1 and suspension 2 elements carrying cables of working 3 and non-working 4 branches, main spring wire 5, clamps 6, link strings 7, contact wire of working 8, non-working branches 9, clamps 10, additional spring wire 11, clamps 12 insulating movable elements 13, a dielectric spacer 14 and insulating insertion rods 15 for interfacing, with sectioning of the branches.

 The implementation of the device for connecting the anchor sections of the contact network includes carrier cables of the working 3 and non-working 4 branches supporting the strings 7, elastic ends stretched by means of support 1 and suspended 2 elements, one ends of which are connected by clamps to the compensated contact wires of the working 8 and non-working 9 branches of the contact suspension, and others - with the corresponding bearing cables 3, 4, two groups of sliding strings 7, one ends of which are connected to the contact wires of the working 8 and non-working 9 branches, the main spring wire 6, attached clamps 5 to the mating spans of the bearing cable of the working branch 3 and connected through movable insulating elements 13 with the other ends of the first group of sliding strings 7, clamps 10 installed between the supporting elements 1 and the corresponding contact wires 8 and 9 with the latter spaced apart by a normalized distance and zigzags. At the same time, an additional spring wire 11 shortened by about one third is inserted into it, connected through movable elements 13 to the other ends of the second group of sliding strings 7 and attached by clamps 12 to the mating spans of the bearing cable of branch 3 with the formation of a rhombus located inside the rhombus formed by fixing the main spring wire 6. The lower sides of the rhombs are centered apart at a normalized distance by a dielectric spacer 14 made, for example, of wood, connected rigidly to the main 6 and pivotally - with additional An additional 11 spring wires on the transitional support 1 of the interface without sectioning. The polymer insertion rods 15 are used in the non-working branch of the cable 4 and the contact wire 9 in conjunction with the sectioning of the anchor sections, without spacer 14. The device operates compared to the known in the temperature difference of air and hurricane winds - with elastic suspension of the working 8 and non-working 9 contact wires on the supporting cable of the working branch 3, through the aggregate connection with it of spring wires 6 and 11, strings 7, providing simultaneous lifting or lowering them vertically, as well as free longitudinal movement contact wires 8 and 9 from the function of their compensation with a spacer 14 at the transition support 1 of the interface of the anchor sections.

 The technical and economic efficiency of the invention is achieved by increasing the operational reliability of the mating of the anchor sections of the contact network and especially at extremely low values of air temperature, the highest wind pressure on the wires and the current collector. The overflow between branches 8 and 9 and damage to the contact network are excluded, the safety of traffic and the productivity of staff are increased.

Claims (1)

 DEVICE FOR LINKING ANCHOR SECTIONS OF THE CONTACT NETWORK, containing carrier cables of working and non-working branches supporting the strings elasticly stretched by means of support and suspension elements, one ends of which are connected by clamps to compensated contact wires of the working and non-working branches of the contact suspension, and the other by cables with the corresponding bearing two groups of sliding strings, one ends of which are connected to the contact wires of the working and non-working branches, the main spring wire attached by clamps to the mating spans of the bearing cable of the working branch and connected through movable insulating elements with other ends of the first group of sliding strings, clamps installed between the supporting elements and the corresponding contact wires with the separation of the latter by a normalized distance, characterized in that an additional shortened spring wire connected to it is inserted through movable insulating elements with other ends of the second group of sliding strings and fastened with clamps to the mating spans of the carrier cable of the working etvi to form a rhombus, located within the rhombus formed by the primary fastening of the spring wire, the undersides of rhombuses apart centered on the normalized distance dielectric spacer, rigidly associated with the base and is articulated with an additional spring wires.

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