CH672183A5 - - Google Patents

Description

DESCRIPTION

The invention relates to a scanning device for determining the exact shape of a rail wheel profile with two separate scanning heads, and a method for determining the exact shape of a rail wheel profile using a scanning device.

This type of device is used both for quality control of new rail wheels and for the consequences of wheel wear in traffic.

To this end, mechanical slide calipers of a special type have been used to date. Recording instruments are also known in order to obtain a diagram of the profile of the rail wheels. The diagram is then compared to the theoretical or original profile.

The disadvantage of these known devices is the lack of accuracy, which can easily lead to incorrect conclusions, such as. B. in relation to wear of the rail wheel. The known devices are also cumbersome to use. With such measuring devices, it is not possible to obtain reliable results if, for. For example, in order to save time, wear tests can be carried out with relatively short driving distances.

Accordingly, a scanning device according to the wording of claim 1 is proposed in the present invention.

The present invention provides an improved scanning device to quickly and easily perform accurate checking of the profile shape and standard dimensions of rail wheels, even under traffic conditions. The main application of the invention comprises continuously comparing the measurements of the profile of the rail wheel,

with those of a master profile during profile scanning.

According to the invention, the rail wheel profile and the master profile are compared with one another using a comparison scanning device which is attached to the flange side of the rail wheel by permanent magnets. The master profile is fastened over the rail wheel surface to be measured and the scanning heads are moved transversely to it along the surface profile, while the touching scanning tips scan the surfaces of the rail wheel and the master profile. The scanning probes are arranged on the same vertical line and the touching scanning tips scan the profile surface at equal distances from the reference point of the profiles. During the scanning, the measuring heads trigger an electrical signal according to the rail wheel profile, which is proportional to the deviations in the dimensions of the rail wheel and the master profile. This difference signal can be amplified and recorded with a chart recorder.

By determining the highest point of the flange as the zero point of the device, the difference signal is directly proportional to the wear of the rail wheel.

The rail wheel and the master profile can be painted over during scanning by mechanical, optical, electrical, magnetic or pneumatic means.

A preferred embodiment of the device according to the invention is shown in FIGS. 1 and 2.

1 shows a side view of the device attached to the rail wheel,

Fig. 2 shows a front view of the device, perpendicular to the plane of the rail wheel.

The construction and operation of the preferred arrangement are described below with reference to the reference numerals in the figures.

The scanning device is fastened to the rail wheel 1 by means of two permanent magnets, which are mounted in the base plate 2, in such a way that the retaining bolts 3 rest on the outer wheel rim and the base plate 2 rests against the side surface on the wheel flange side of the rail wheel, which according to the standard standards as Reference surface is used in the dimensioning.

Since the outer wheel rim of the rail wheel on which the bolts 3 rest does not wear out in use, it can also be used as a reference diameter. The housing of the device 4 is attached at right angles to the base plate. The measuring slide 5 is moved along the slide rails on the housing of the device in the horizontal direction, by means of a threaded ring embedded in the slide, and a screw spindle 7 driven by a stepped motor 6.

Another measuring slide 8 moves along the vertical slide rails on the measuring slide 5. A rigid scanning head 9 mounted on this measuring slide 8 follows the shape of the upper surface of the master profile 11, which is fastened to the housing of the measuring device with two bolts 10. In this way, the measuring slide moves according to the movements of the master scanning head 9 when it moves along the upper surface of the master profile 11 in the vertical direction.

In the measuring slide, which is moved in the vertical direction, there is a measuring transducer and, displaceably mounted, the working measuring head 12 equipped with a scanning head 13, which is used when measuring the shape of the rail

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wheel profile follows when the measuring slide 5 is moved in the horizontal direction.

The probe tips of the scanning heads 9 and 13 lie on the same vertical and therefore always have the same horizontal distance from the reference surface.

According to the working principle of the working measuring head 12, the changes in the output signal of the working measuring head 12 are proportional to the changes in the mutual distance between the scanning tips of the heads 9 and 13. When the measurement is started, the scanning tips are brought to the highest point of the flange by moving the measuring carriage 5.

The signal of the working measuring head 12 is set to zero at this point. The measurement is carried out by moving the scanning tips at a suitable distance from the reference point. (The measuring distance of 55 mm, which is shown in FIG. 1, corresponds to the running circle (running circle) according to the UIC standard).

The output signal of the working measuring head 12 is then directly proportional to the height difference between the master profile and the rail wheel profile and thus the amount of wear on the rail wheel. The measurement can be repeated at different points on the profile and on the circumference of the rail wheel in order to be able to make a clear statement about the distribution of wear on different sections of the wheel. The measuring device according to the invention can be used to measure rail wheels according to the various standards by simply changing the master profile according to the corresponding standards.

The measurement and recording of the results can be automated with the measuring device according to the present invention, e.g. B. uses a microcomputer and saves the results of the measurements obtained under operating conditions in the memory of the microcomputer for later evaluation.

In a further embodiment of the invention, the io master profile 11 can be compensated for by a mathematical function which is read into the memory of a microcomputer. The measuring slide 8 is then moved in the vertical direction by using a stepping motor controlled by a microcomputer by rotating a threaded spindle, a threaded ring being installed in the measuring slide. The movement takes place in such a way that the position of the measuring slide 8 corresponds to the height of the master profile at the appropriate distance from the reference surface.

With the measuring devices according to the invention it is easy to obtain a large number of accurate measurement results, e.g. B. the wear of the rail wheel.

When measurements were made, the accuracy was 0.03 mm when the wear was between 0 and 10 mm 25. The turning of rail wheels can be carried out much more economically than previously in the maintenance service using measurements with the device according to the present invention.

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1 sheet of drawings

Claims (5)

672 183 PATENT CLAIMS 1. scanning device for determining the exact shape of a rail wheel profile with two separate scanning heads (9, 13), each having a scanning tip for scanning the surface of the rail wheel profile and at the same time the surface of a master profile (11), and which generate a measurement signal which is proportional to the Change of the mutual, vertical distance between the two scanning tips is. 2. Scanning device according to claim 1, characterized in that the scanning tips are arranged on the same vertical. 3. Scanning device according to claim 2, characterized in that mechanical, electrical, magnetic or pneumatic means are provided to move the scanning tips in the lateral direction with respect to the rail wheel profile and the master profile during measurement on the rail wheel. 4. Scanning device according to claim 1, characterized in that the master profile (11) is compensated by a mathematical function which is read into a memory of a microcomputer, and that the vertical position of a measuring slide with the scanning heads (8) by this function during scanning of the rail wheel profile is controlled by the scanning tips. 5. A method for determining the exact shape of a rail wheel profile by means of a scanning device according to one of claims 1 to 4, characterized in that the scanning device is attached to the rail wheel during the measurement and the scanning tips are moved in the lateral direction with respect to the rail wheel profile and the master profile.