Thermal measuring and testing – Temperature measurement – Combined with diverse art device
Reexamination Certificate
2002-04-18
2004-02-24
Verbitsky, Gail (Department: 2859)
Thermal measuring and testing
Temperature measurement
Combined with diverse art device
C374S121000, C250S338100, C250S342000
Reexamination Certificate
active
06695472
ABSTRACT:
The invention relates to a device for measuring the temperatures of axles and/or bearings to locate hot-boxes or overheated brakes in rolling stock, in which the infrared rays of the measuring points are directed onto an infrared receiver via an oscillating mirror, whereby infrared rays emitted transversely to the longitudinal direction of the rails are detected in the scanning plane defined by the oscillation of the oscillating mirror.
Devices of the initially defined kind are described, for instance, in AT 395 571 B or AT 398 413 B. Such devices are also referred to as hot-box locating devices, wherein it is feasible as a function of the measuring region detected, to detect also blocking brakes or other inadmissibly heated parts of railway vehicles by the aid of analogous devices. As detection means, devices of that type would use thermal detectors such as, for instance, bolometers or also rapidly responding thermal radiation probes such as, for instance, HgCd, HgTe, InSb, PbSe or combinations of such semiconductors. Such semiconductors react to alterations by the thermal excitation of free charge carriers and are able to resolve high pulse repetition radiation, yet are unsuitable for the continuous detection of a given temperature level without additional means such as, for instance, modulators or deviation means, by which the incident ray is cyclically interrupted or directed onto other temperature levels.
Such devices, as a rule, are arranged in the track region with the measuring ray reaching the generally cooled detector through a window of the device and appropriate deviation means. The arrangement usually is realized such that the active window is able to detect the bearings of a rolling railway vehicle while enclosing an angle to the normal. In order to avoid measuring inaccuracies and, in particular, a running error caused by what is called a sinusoidal run, a number of special evaluation methods has been developed, which enable the actual detection of the respectively hottest point of an axle or bearing transverse to the longitudinal direction of the rails, such a special measuring and evaluation method being described, for instance, in AT 398 413 B.
A disadvantage common to all of the hitherto known devices consists in that strongly differing track wheel dimensions and, in particular, differing track wheel dimensions of coaches or freight cars and, above all, so called low-platform cars substantially influence the possible scanning range derived from the distance of the oscillating mirror to the scanning surface. Due to the geometry of different vehicles and, in particular, the geometry of different bearings, it is usually only very difficult to detect several scanning surfaces simultaneously at different sets of coaches by just a single device.
The invention aims to provide a simple device of the initially defined kind, which includes a scanning-plane detecting oscillating mirror and by which it is feasible, irrespective of the geometry of the respectively rolling vehicle, to detect defined positions in the region of the axles and, in particular, bearing axles, brakes such as, for instance, disc brakes, or any other possibly inadmissibly heated parts of a vehicle and to obtain complete information by the aid of a single detection device. To solve this object, the device according to the invention essentially consists in that at least two deviation mirrors are arranged within the scanning plane at a distance from one another transverse to the longitudinal direction of the rails, whose deviated infrared rays are detected in a chronological sequence in accordance with the oscillation of the oscillating mirror. Due to the fact that at least two deviating mirrors are arranged within the scanning plane at a distance from each other transverse to the longitudinal direction of the rails, a plurality of measuring regions or measuring points can be deviated into a scanning plane defined in correspondence with the oscillation of the oscillating mirror, and conducted to a common detector if the deviation mirrors respectively associated with the individual measuring points are arranged in a laterally spaced-apart relationship and the deviated infrared rays are directed during scanning onto the infrared detector in a chronological sequence based on the oscillation of the oscillating mirror.
In a particularly advantageous manner, the configuration according to the invention is devised such that the deviation mirrors are designed as deviation mirrors rotating about an axis extending normal to the mirror plane. Such rotating deviation mirrors at accordingly high rotational speeds due to the centrifugal force are able to throw off dust particles impinging on the mirror surfaces such that a self-cleaning effect of the deviation mirrors is observed.
Advantageously, the configuration may be devised in a manner that the planes of the mirror surfaces of the deviation mirrors are arranged substantially parallel with one another. If such mirror surfaces of the deviation mirrors are arranged substantially parallel with one another, a plurality of superimposed positions may each be associated to such a deviation mirror, and reliably detected one after the other, within the scanning plane defined by the respective oscillation mirror, thus enabling a particularly simple compensation of superimposed signals at the transition from one deviation mirror to the consecutive deviation mirror within the range of oscillation of the oscillating mirror.
In a particularly simple manner, the configuration is devised such that the deviation mirrors are arranged in different heights, or at different vertical distances relative, to the rolling plane or relative to the plane stretched by the rail sleepers, respectively. With a substantially parallel arrangement of the planes of the mirror surfaces of the deviation mirrors, such a shift transverse to the longitudinal direction of the rails, or in the longitudinal direction of the axis of the sleeper, results in the detection of precise positions of an axle or bearing without requiring the inclination of the optical axis of the detector in a manner likely to be affected by different geometric configurations of vehicle bogies. This applies, in particular, to a substantially horizontal arrangement of the optical axis of the input optics of the detector, which is preferred.
Advantageously, the configuration according to the invention is devised such that the rotating deviation mirrors are arranged within a hollow sleeper and that the sleeper, in the vertical direction above the respective mirror, comprises openings or windows for the passage of infrared rays. It is, thus, feasible to arrange the rotating deviation mirrors themselves in a protected manner and to safely detect a plurality of measuring points or measuring regions within the scanning plane defined by the mirror oscillation, at a narrowly defined scanning angle that will not be disturbed by foreign influences. The openings or windows of the sleeper may suitably be protected by infrared-permeable glasses or even by screens or slides so as to substantially reduce any risk of contamination of the mirrors.
Advantageously, the configuration is devised such that the optical axis of the entrance lens of the detector comprising the oscillating mirror and the infrared receiver extends substantially parallel with the running plane. Such an orientation of the optical axis of the optics of the detector and, in particular, of the optical axis of the entrance lens of the detector allows for the protected arrangement of the detector itself, for instance within a hollow sleeper, in order to further reduce adverse effects by mechanical influences or contamination. This configuration, in particular, renders feasible to safeguard that the measuring ray will in no way be interrupted even in the event of low-platform cars or parts hanging from cars, so as to safely provide the necessary measuring values for all axles.
Advantageously, the configuration is devised such that the planes of the deviation mirrors are arranged
Chapman and Cutler LLP
VAE Aktiengesellschaft
Verbitsky Gail
LandOfFree
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