PL228613B1 - Device for compensation of changes in the R traction network length - Google Patents

Description

(21) Application number: 413622 _B 6QM _{1/26 (200601)}

Patent Office of the Republic of Poland (22) Date of filing: 23.08.2015 (54)

A device for compensating for changes in the contact line length

(43) Application was announced: (73) The right holder of the patent: MABO SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ, Mierzyn, PL (72) Inventor (s): ADOLF BOGACKI, Szczecin, PL RYSZARD GREGUŁA, Police, PL LESZEK BŁĘDOWSKI, Szczecin, PL KRZYSZTOF DONDZIAK, Szczecin, PL 27.02.2017 BUP 05/17 TADEUSZ KNYCH, Krakow, PL (45) The grant of the patent was announced: ANDRZEJ MAMALA, Krakow, PL PAWEŁ KWAŚNIEWSKI, Sułków, PL GRZEGORZ KIESIEWICZ, Krakow, PL WOJCIECH ŚCIĘŻOR, Krakow, PL ARTUR KAWECKI, Cracow, PL 30/04/2018 WUP 04/18 RADOSŁAW KOWAL, Pilica, PL SZYMON KORDASZEWSKI, Zadole Kosmołowskie, PL ANDRZEJ NOWAK, Krakow, PL WIESŁAW MAJEWSKI, Warsaw, PL ARTUR ROJEK, Pruszków, PL (74) Representative: thing, pat. Tadeusz Kachnic

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PL 228 613 B1

Description of the invention

The subject of the invention is a device for compensating changes in the length of the overhead contact line, power cables or lifting ropes, because the overhead contact line configuration is not constant and depends on the ambient temperature.

Various systems for compensating cable length changes due to temperature changes are known and applied.

One of them is formed by counterbalance and consists in connecting one end of the cable with a weight by means of pulleys, where it creates a tension force on the cable by gravity. In this system, the tension in the cable remains unchanged as the cable length changes because the installed weight does not change. This system has a major disadvantage because it requires a large area, e.g. in tunnels where it is very often not possible to provide adequate cavities, and the high cost of installation.

Another known solution is the use of a gas compensator where one end of the cable is connected to a device that includes a spring / damping unit with pressurized gas, most often nitrogen, while the device provides a substantially constant load.

The disadvantages of this solution include the phenomenon of gas losses in the device, which requires constant monitoring and maintenance, and the cost of the device is also high.

A compensation system based on a simple spring compensator is known. This system uses a helical spring which suppresses the mechanical effects caused by cable elongation or contraction, but cannot maintain a constant tension on the cable, due to the characteristic of the spring changing the load proportional to the stroke.

In WO 98 / 21794A, the opposing element is formed by a helical spring which, in conjunction with a cable by tensioning means, with one or more variable radius pulleys, to transform the elastic response of the helical spring is usually varied as a function of changes in length, on the basis of constant stress applied to the cable to be tensioned.

There is known from EP 2 066 523 B1 a device for compensating for differences in the length of wires under tension, with a substantially constant tension, comprising a contrast element which is intended to be placed between one end of the tensioned cable and a fastening element and is adapted to generate an elastic response, which may vary according to the variation in cable length. The device comprises connecting means for connecting the contrast element to the wire, which are adapted to convert the resistance response of the contrast element to a substantially constant stress applied to the cable, regardless of its length, within a predetermined range of variations in the length of the contrast element, being formed by at least one spring spiral. and the connecting means are preferably formed by at least one disc of variable radius. The variable radius disc is connected to a helical spring which is provided with at least one coil and connected to the cable under tension. The presented solution is characterized by a high cost and fails in cases of a significant extension of the traction network cables.

The aim of the invention is to develop a simple design of the compensation device ensuring compensation of considerable elongation of the overhead contact line and at the same time characterized by a lower cost compared to the known and used devices.

The device for compensating changes in the length of the overhead contact line according to the invention, comprising a cable length counteracting unit and a variable radius rotating pulley, is characterized in that the counter assembly comprises a spacer arm pivotally mounted at one end on the axis between the spiral springs, and at the other end of the spacer arm. the axle is mounted, on which the cam is rotatably mounted, with a tensioning cable located in its groove, the end of which is attached to the overhead contact line supply cable.

The cam distance arm eliminates the onerous initial stresses of the springs during installation on the overhead contact line, and provides compensation for significant elongations occurring during the operation of the overhead lines caused by temperature changes.

The subject of the invention is shown in the embodiment in the attached drawing, where fig. 1 shows the device in a side view, fig. 2 - shows the device in a front view, fig. 3 - device in a top view, fig. 4 shows the device in a view. perspective.

The device for compensating for changes in the contact line length is attached to the 14 anchor post.

PL 228 613 B1

The device comprises a counter element 4 disposed between one end of the taut cable to which the end of the cable 11 is attached and a base 1 mounted on a pole 14. The counter assembly 4 generates an elastic response that varies as the cable length changes. According to the invention, the device comprises connecting means 9, 10 for connecting the counter-unit 4 to the cable, adapted to convert the elastic response of the counter-unit 4 into a constant stress applied to the overhead contact line cable, within the range of assumed variation values 6, producing a variable elastic response as a function of changes. length. The counter unit 4 comprises two helical springs of the length of the cable, and thanks to the connecting means 9, 10, ensures a constant tension on the cable. The connecting means 9, 10 comprises a cam 10, with a variable radius, pivotally mounted on the axis 12 of the spacer arm 9, situated at one end of the spacer arm 9. The other end of the spacer arm 9 is seated on the axis 7, between spiral springs 6, which are also seated. on axis 7. On axis 7 there is also mounted a pulley 8 and a housing with a temperature scale. The axle 7 is seated at the ends of both clamping arms 13, and the other end of each of the clamping arms 13 is mounted in one of the two lower articulated brackets 3 attached to the base 1. Moreover, the adjustable arm 5 connects each of the clamping arms 13 to the upper articulated bracket 2 The axes 7 and 12 and the axes of both lower articulated handles 2 are situated in one horizontal plane. The steel cable 11 is connected at one end to the rope pulley 8, mounted on the axis 7 through a spacer 9 with a cam 10, and the other end of the steel cable 11 is ended with a thimble so that it can be connected to the contact cable of the overhead contact line or the catenary carrier rope. .

The distance arm 9, when mounting the device on the pole 14, eliminates the preload of the springs 6, since it is performed on the test stand. For this purpose, the steel cable 11. is wound on one end on the cable pulley 8, mounted on the axis 7 together with the springs 6, while the other end of the steel cable 11 is wound on the track of the cam 10. The overhead contact line cable should be tensioned to the value corresponding to the temperature. surroundings. The reference for the ambient temperature value in the form of a scale is mounted on the housing of the device.

Claims (2)

Patent claims A device for compensating for changes in the length of the overhead contact line with substantially constant tension in the cable, comprising a device for counteracting the effects of changes in the length of the cable, positioned between the end of the tensioned cable and the anchoring element, producing an elastic response that varies with changes in the length of the tensioned cable, comprises at least one spring a spiral and rotating pulley with a variable radius, with which a taut steel cable is connected at one of its ends, characterized in that the counter unit / 4 / comprises a spacer / 9 / rotatably mounted on an axis / 7 / between the spiral springs / 6 /, while at the other end of the spacer / 9 / there is an axle / 12 / on which a cam / 10 / with a steel cord / 11 / is rotatably mounted. 2. The device according to claim A device according to claim 1, characterized in that the counter unit / 4 / has one spiral spring / 6 / mounted on the axis / 7 /.