DE2353965A1 - Non-contact measurement of camber and track of vehicle wheels - with auxiliary point reflected on wheel and detected by T.V. recorder - Google Patents

Abstract

From the video signal picked up by the television recorder a brief pulse is generated which is used to derive from sawtooth sweep voltages some measuring signals for the x and y directions, which are proportional to the coordinates of the mirror image of the auxiliary point on the photosensitive electrode of the television recorder and which represent a criterion for the direction to be measured. The coordinates can be measured and digitised simultaneously by counting circuits which count a periodic train of pulses in the period between the pulse derived from the video signal and the previous or subsequent rebound of the sawtooth voltages.

Description

Fraunhofer-Gesellschaft for the funding of 2353965

Applied Research e.V., based in Munich,

8 Munich 19, Leonrodstr. 54 '

Method and device for non-contact measurement of fall and trace of _; Motor vehicle wheels

The invention relates to a Terfahren and a device for Contactless measurement of camber and toe-out of vehicle wheels with opto-electronic means. A fixed auxiliary point which is preferably designed as a point light source is, is reflected on a plane mirror attached perpendicular to the axis of the wheel to be measured, and the mirror image on the light-sensitive layer of a television recording device pictured. The video signal becomes with Er-. capture of the image point by the scanning process, a pulse signal is derived and thus from the i.a. sawtooth-shaped deflection signals for the x and y directions correspond to the coordinates of the Measurement signals proportional to the image point formed. There is one of the two required reference straight lines, preferably the optical axis of the television recording device.

Previously known non-contact measurement methods The camber and track are also based on the reflection of optical marks on a mirror attached perpendicular to the axis. However, the optical images of the brands emerge Focusing screens or projection surfaces; your position to scales must be determined visually by the user so that, apart from the inevitable reading errors in this case, an immediately subsequent electrical registration and processing as well as continuous measurement is not possible.

According to the invention, these disadvantages, which are in particular in Series tests are disruptive, avoided. The details are explained using an example; the basic arrangement is shown in FIG.

5098 19/0 12 1

As an auxiliary point, a point light source 1 is attached in front of a lens 2 of a Ferasehaufnähmeeinrichtung.on its optical axis 3. An opaque screen 4 prevents light from falling directly into the lens. The light from the source 1 is reflected by a mirror 5 mounted on the wheel perpendicular to the axis 6; the lens 2 images the mirror image of the source 1 on the light-sensitive electrode 7 at point 8. To simplify the drawing, the position of the mirror 5 is assumed to be perpendicular to the plane of the drawing. The optical axis 3 will preferably lie perpendicular to the longitudinal axis of the motor vehicle in a horizontal plane (parallel to the contact surface). The angle between the vertical plane laid by the optical axis 3 and the vertical plane (track) laid by the axis 6 and the angle between the horizontal plane laid by the optical axis 3 and the axis 6 (camber) are to be measured. This measurement is replaced by the measurement of the coordinates of the point 8 in the plane of the electrode 7, as shown in FIG. The electron-optical scanning of the electrode 7 according to a cell-shaped scanning raster, which is customary in Pernsehauf taking devices, means that the image point 8 is detected at a certain point in time. If the image point 8 has sufficient contrast in relation to the background or if it differs sufficiently from the background in terms of color or shape features, a pulse can be derived from the video signal at the point in time at which the scanning process passes over point 8; this pulse u _z is used to derive quantities u_ and u proportional to the coordinates of the image point 8 from time-variable voltages u and u, which are proportional to the instantaneous coordinates χ and y of the scanning point. FIG. 3 shows the time curves of the voltages u and u and the pulse u _z derived from the video voltage. Voltages such as U _x and u according to IPigur 3 can be tapped in television recording devices and in connected television monitors. The formation of the quantities u and u can be done by sample and hold amplifiers.

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2353165

which are caused by the voltage u. geiascet _f . Sine measurement and simultaneous dig! Tails! of the quantities u__ _Q and u-, is due to the piecewise linear increase in the voltages U ₂ . and u "also possible by counting circuits jr a counter is available for each of the variables _f the periodic pulsesι sufficiently high frequency in the" period: between the jump of the voltages u "or ü. and the base ix ' counts *] Jer counter reading "when the pulse arrives is proportional to the" relevant coordinate of point 8. Logical circuits can be used to prevent ■ "'." - a count in those periods of the voltages in which no pulse u ^ falls *

Instead of today's standard learning tubes, there are also Areal arrangements of photo diodes can be used. Instead the sawtooth-shaped deflection voltages then occur which correspond to the coordinates of those photodiodes which the picture 8 of the Hiifpunkt falls »

With the measuring method according to the invention are electrical Signals obtained with analog or digital devices can be further processed or controlled with recorders. In this way it is possible. To register fall and feel continuously, e.g. with increasing load »

Veiaäeidung to the influence of Störllcht can be used as a source 1 used mohochromatischeliichtquelle and ent speaking optical J ¹ llter be placed in front of the electrode. 7 : ",".,.;"·.' ^: - ■ '. """. . . : - ■ - ■ ";" -. ".. ' ^: . - ·." -.

The measuring device described allows the use of the previously customary mirrors attached to the wheels to be measured. The distance from the wheel to the fair direction is about 1 m, so that it doesn’t have to be removed when changing the motor vehicle and therefore no repeated adjustment days are necessary. _;

Sf 9 81 r / O 1

The measuring device can be used to determine the direction of any straight line or plane, if perpendicular to the A mirror can be attached straight or parallel to the plane.

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Claims (5)

3? Raunhof er-Gresell3cliaf t for ordering the applied Fors oimng e ..Y- *, seat. Hiincten, Munich 19> I> eonrodstr. 54 - 5 - ■ "" Patent to s ρ r ü c h e 1.! Procedure and equipment for measuring camber and toe a motor vehicle wheel,. d a d u r c h g eic e η η ζ e i c h η e t, that an auxiliary point mirrored on the wheel with a TV recording device is recorded, and from the video signal a brief pulse is generated with which from the i.a. sawtooth-shaped deflection voltages for the x- and y-direction measurement signals are derived that the Coordinates of the mirror image of the auxiliary point on the light-sensitive electrode of the television recording device tion, are proportional and represent a measure of the direction to be measured. 2. The method and device according to claim 1, dadurchgeke η ώ. ζ egg without t, that by sample and hold amplifiers, which are clocked by the pulses generated from the video signal, measurement signals are derived from the sawtooth-shaped afclenk voltages. 509819 / (^ 121 3. The method and device according to claims 1- and 2, characterized, that a measurement and simultaneous digitization of the Coordinates is carried out by counting circuits, which are a periodic sequence of Eulsen in the period between the pulse derived from the video signal and the previous one or subsequent return of the associated Count linear sawtooth voltages piece by piece. 4. Device for performing the method according to claims 1 to 3,. _; thereby gefc en η ζ ei cn η e t, that the auxiliary point is a point light source (1) on the optical axis in front of the lens (2) of the television recording device is, with an opaque screen (4) allowing light to penetrate directly into the lens prevents, and that the light source (1) has an on the mirror (5) attached to the plane to be measured is detected by the recording device. 5. Device according to claim 4. »
characterized, that to avoid disturbing extraneous light influences the auxiliary point is designed as a monochromatic light source and a corresponding optical filter in front of the light-sensitive electrode of the recording device is arranged. 5098 19/012