RU214367U1 - Contact suspension wire tension meter - Google Patents

Abstract

The utility model relates to the power supply of electrified railways. Contact suspension wire tension meter contains a wire on which a measuring element is fixed, one end of which is rigidly connected to the wire, and the other end is equipped with a measuring element tension mechanism in the form of a spring with a tension adjustment device. The measuring element is equipped with a longitudinal force and temperature sensor with the ability to connect their outputs to a transmitter. The tension mechanism is equipped with a device for rigid fixation of the measuring element relative to the wire after pre-tensioning the specified measuring element to a predetermined value. The technical result consists in increasing the accuracy of determining the tension of the wires of the contact suspension.

Description

The utility model relates to the power supply of electrified railways, namely to remote measuring systems for monitoring the state of the catenary.

Closest to the claimed is a device containing a measuring element made with the possibility of being fixed on a wire, one end of which is rigidly connected to the wire, and the other end is equipped with a mechanism for tensioning the measuring element in the form of a spring with a tension adjustment device, while the measuring element is equipped with a sensor of longitudinal forces and temperature with the possibility of connecting their outputs to the transmitter (Pat. No. 2723527 for the invention, IPC V60M 1/12, H02N 5/04. Contact network / E.A. Butenko, S.N. Smerdin, A.S. Golubkov, A. N. Smerdin (RF), No. 2019119282, Claimed on June 19, 2019, Published on June 11, 2020, Bulletin No. 17).

The disadvantage of the existing device is that the tension in the measuring element is created by means of the tension mechanism of the specified element, which includes a spring and a tension adjusting device. At each moment of time, the force sensor measures not the force that occurs in the measuring element, but the force realized by the spring of the tension mechanism. In addition, in real operating conditions, the applied springs have a non-linear elastic characteristic, which can vary depending on the ambient temperature and other factors.

The proposed utility model eliminates the disadvantage described above.

The purpose of the utility model is to increase the reliability of measuring the tension of the wires of the catenary.

This goal is achieved by the fact that in the known contact suspension wire tension meter, which contains a measuring element made with the possibility of fixing on the wire, one end of which is rigidly connected to the wire, and the other is equipped with a measuring element tension mechanism in the form of a spring with a tension adjustment device, while the measuring element the element is equipped with sensors of longitudinal forces and temperature with the possibility of connecting their outputs to the transmitting device, said tension mechanism is equipped with a device for rigid fixation of the measuring element relative to the wire after pre-tensioning the specified measuring element to a predetermined value.

The figure shows a diagram of the proposed contact suspension wire tension meter.

The contact suspension wire tension meter contains a measuring element 2 made with the possibility of being fixed on the wire 1, one end of which is rigidly connected to the wire 1, and the other end is equipped with a tension mechanism 3 of the measuring element 2 in the form of a spring 4 with a tension adjustment device 5, while the measuring element 2 equipped with sensors of longitudinal forces 6 and temperature 7 with the possibility of connecting their outputs to the transmitting device 8. The tension mechanism 3 is equipped with a device for rigid fixation 9 of the measuring element 2 relative to the wire 1 after pre-tensioning the specified measuring element 2 to a predetermined value.

The proposed device works as follows.

The measuring element 2 is made of the same material as the wire 1 and is rigidly fixed on the specified wire 1. The specified tension is set using the tension adjustment device 5 and after pre-tensioning the measuring element 2 is rigidly fixed on the wire 1 by means of the rigid fixation device 9. force, installed on the measuring element 2, measures the tension of the measuring element and thereby allows you to determine the amount of tension of the wire 1. The data received from the longitudinal force sensors 6 and temperature 7 are transmitted to the inputs of the transmitting device 8.

The advantage of the proposed device is as follows: the presence of a device for rigid fixation of the measuring element relative to the wire makes it possible to exclude the influence of the nonlinearity of the elastic characteristic of the spring on the tension of the measuring element. The spring here performs the function of pre-tensioning the measuring element to a predetermined value with subsequent rigid fixation so that the processes of tension and compression in it do not create conditions for loss of stability with subsequent bending across the axis of the measuring element during its compression. After tension to the specified value, the measuring element is rigidly fixed relative to the wire and implements the processes of tension and compression in the same way as a wire rigidly connected to it, which provides the best conditions for an adequate assessment of the forces in the wire. The proposed device makes it possible to increase the reliability and accuracy of determining the tension of the catenary wires by rigidly fixing the measuring element on the wire after pre-tensioning to a predetermined value.

Claims (1)

Catenary wire tension meter, comprising a measuring element designed to be fixed on the wire, one end of which is rigidly connected to the wire, and the other end is equipped with a mechanism for tensioning the measuring element in the form of a spring with a tension adjustment device, while the measuring element is equipped with sensors of longitudinal forces and temperature with the possibility of connecting their outputs to the transmitting device, characterized in that the tension mechanism is equipped with a device for rigid fixation of the measuring element relative to the wire after pre-tensioning the specified measuring element to a predetermined value.

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