SU1799942A1 - Device for determination of railway track position in vertical plane - Google Patents

Description

The invention relates to measuring technology and can be used for continuous measurement of the position of the railway track in the vertical plane.

The purpose of the invention is to improve the accuracy of measurements.

The drawing shows the proposed device. It contains a measuring wheel pair 1, struts 2, cross beams 3, console 4, longitudinal beams 5, 12, side supports 6, central support 7, platform 8 for installing a gyroscope, levers 9, gyroscope 10.

The device works as follows.

The longitudinal and transverse beams, together with the racks and wheel pairs of the bogie, due to the available articulated joints, form two longitudinal and two transverse measuring parallelograms, an important property of which is the parallelism of the beams to the corresponding lines passing through the points of contact of the wheels with the rails. Thus, by measuring the angle between the beam and the direction of interest (horizontal for measuring the level or the longitudinal axis of the car for measuring the subsidence of each rail line along the length of the bogie base), the level and subsidence of the rail lines are measured.

When the rail lines change in height, the position of the measuring wheel pair 1 rolling along them changes accordingly, which, as in the prototype, has a cylindrical turning of the tires to increase the measurement accuracy. These changes are transmitted through the posts 2 to the transverse beam 3 and rigidly connected to her console 4 with platform 8, on which the gyroscope 10 is installed.

Due to the presence of hinges on the struts 2 at the point of their attachment to the wheelsets and in the joints of the longitudinal 5, 12 and transverse 3, 11 beams, the inclination of the transverse beam 3 and the console 4 rigidly connected to it, hinged at one end on the central support 7, will always be parallel to the inclination of the measuring wheelset regardless of the vibration of the sprung body.

The vibration transmission system is kept from spontaneous skewing by means of levers 9, one end connected to the longitudinal beams 5, 12, and the other to the side supports 6, which in turn are rigidly attached to the body.

When one rail is lowered relative to the other, an angle is formed between the longitudinal axis along the crossbeam 3 and the artificial horizon created by the gyroscope 10, as a result of which an electrical signal appears on the potentiometric sensor installed on the output axis of the gyroscope 10, which is fed through the amplifier to the recording unit.

Since the magnitude of the electrical signal and, accordingly, the deflection of the pen of the recording unit is directly proportional to the value of the angle between the longitudinal axis of the transverse beam 3 and the artificial horizon of the gyroscope 10, the required scale for recording the measured value is achieved by changing the magnitude of the electrical signal using an amplifier.

The proposed device, in comparison with the known ones, has a simpler kinematic scheme, smaller dimensions and contains fewer parts. This reduces the inertia of the device, as well as the load on the gyroscope. These factors increase the measurement accuracy. The presence of an electrical signal makes it possible to record the measured parameters not only on the tape of a recording device, but also on a magnetic tape or other device for the purpose of processing the obtained data on a computer.

The device can be used in track gauges for industrial and mainline railway transport, which provide measurement of the geometric parameters of a rail track under a real axle load with a sufficient degree of accuracy.

Claims (1)

Claim A device for determining the position of a railway track in a vertical plane, containing a biaxial bogie with a measuring wheelset, a gyroscope connected to the specified wheelset by means of a system for transmitting vibrations of this wheelset in a vertical plane, which includes two stands hinged on the measuring wheelset, located on both sides of the longitudinal plane of symmetry of the device, and a recording unit, characterized in that, in order to increase the measurement accuracy, the specified vibration transmission system is equipped with a beam located parallel to the axis of the measuring wheelset and resting on the ends on the racks, and a console attached to the beam and resting on the support, and the gyroscope is mounted on the console.