SU370459A1 - SECURITY mmm- ^ ij ^^ icm - Google Patents

Description

The invention relates to a measurement technique, in particular, to electro-optical stands for measuring the mounting angles of controllable wheels.

Electro-optical stands for measuring the angles of installation of the controlled wheels, predominantly automobiles, containing projectors mounted on the rims of the controlled wheels parallel to their plane of rotation, and screens with width gauges are known. However, in order to determine a number of parameters of controllable wheels, for example, the angle of longitudinal inclination of the nx axis of rotation, it is necessary to have additional side screens and projectors that ensure the direction of the beam not only parallel to the plane of rotation of the wheel, but also perpendicular to it. This complicates the design of the stand and the technology for measuring the installation angles of the driven wheels. In addition, the installation of screens of known stands on the level of the top floor of the floor necessitates an increase in the projector's console relative to the plane of rotation of the wheel, which increases the dimensions of the stand and the measurement curvature.

The purpose of the invention is to improve the usability, simplify the measurement technology and the design of the stand.

For this, each screen is mounted in front of the wheel below its axis of rotation and provided with two side vertical angles.

large scale grades graduated to the values of the angle of longitudinal inclination of the wheel axis and directed downward from the centers of reference; and linear index of the wheel, the center of which is combined with the center of one of the mentioned lateral scales.

FIG. 1 shows the proposed stepd, a general view; in fig. 2 shows a scheme for measuring convergence and camber; in fig. 3 - scheme of measuring the angles of inclination of the rotation of the wheels and the view along arrow A; in fig. 4 — node I in FIG. 3; in fig. 5 — node II in FIG. 3

The main devices of the stand are screens / installed in front of the car below the floor level and moving on rollers 2 along guide rails 3, and short-cantilever projectors 4 fixed to the front wheels of the car using tripods 5 and set in such a way that the beam is directed parallel and at a defined distance relative to the plane of rotation of the wheel. This is achieved by adjusting the position of the rotary axis 6 of the projector (relative to which the projector can rotate or be clamped) with the help of three knobs 7 until the beam is "beaten while rotating the suspended wheel, i.e. until the axis of rotation the projector (with respect to which the beam is perpendicular) is perpendicular to

plane of rotation of the wheel. The absence of a beating of the beam is observed on the linear scale 8 of the screen. For coitrol front wheel alignment angles, each stand screen is provided with a vertical angular scale 9 for determining the camber of the wheel a; vertical; marks W turn the wheel at a certain angle (right and left); a vertical linear scale // to determine the ratio of the angles of rotation of the wheels; horizontal angular scale 12 for determining the lateral angle / la. w quorn; two vertical angular scales 13 and 14 (at the turning points of the wheel at a certain angle to the right and left) to design the camber angles when turning and calculating the longitudinal angle of inclination; the index scale line 15, it is necessary for Yushes to determine the angle Y directly on the scale M without calculating the difference in debris by projecting a beam from a scale mark of 15, chosen taking into account the camber display projected on the scale 13. Scales 13, 14 and 15 are graduated in angle values ton of tilt

SHKVORNYA.

To rotate the wheels required by the technology of measuring the 1 and the angles of the installation, serve floating discs 16. The rear of the screens behind the holes, tarnished at the vertical marks 17, are mounted on the pivot rod in one nod of the mirror 18. The bar 19 is installed in the prisms of the support pillars 20 in such a way that its axis is parallel and pa a certain distance from the axis of the front wheels. The mirrors are used to reflect the beams of the projectors and the designation of convergence of wheels and linear lines (Cal 21 and 22). To measure the camber and wheel convergence, one of them has downloaded into the dim position (see Fig. 2), in which the projector beam, mirrored parallel to the plane of rotation of the wheel, mirrors the mirror 8 and reflects to the zero mark of the convergence scale 21. In this position, the projector rotates around its center from the center 23 (see Fig. 3) and the camber angle is read on the scale 9 , and on a scale of 22 (see FIG.

2) the projector of the other wheel reads the wheel convergence value.

For control is related; L of the angles of rotation of the wheels one of them (for example, the left) rotates (with the projector squeezed on the rotary axis) a certain angle to the left up to the side mark 10 (see Fig. 1), and on the other wheel on a scale of 11 of the right scrap is read angle of rotation.

The angle of the transverse angle of the axis of rotation of the wheel is projected from the center 24 (see Fig.

3) on the 1st grade 12 (see mark 25 in Fig. 3). To determine the angle at which the wheel is rotated due to the turn of the wheel, the wheel with the projector clamped is turned from the straight position (DI. Point 26 in Fig. 3) to a certain angle to the left, which is controlled by the position of the beam at 10 (see point 24 for the FNG). 3) by turning the projector around its base. From the center 27, the camber angle is projected on a scale of 13 (see point 28 in the value of y. Then the wheel turns again with the projector clamped from center 24 to point 25 onward (to the calculated angle) and in this position the projector’s .VI projected around its axis from the mark 29 of the index scale or jackals 15, chosen according to the indications of the scale 13. angle V on the scale 14 (see mark 30 and fig. 3).

PREDID 1 U T N 3 ABOUT IT

An electrical stand for measuring the installation angles of the steerable wheels is primarily a1 mobiles supporting projectors, with: K | r0nl bm on the rims of the steered wheels parallel to the plane of their rotation, and screens with scales that are different in order to improve usability and simplify

measurement technology and stand design, each screen is installed in front of the wheel below its axis and equipped with a two-sided vertical scale, graduated in the angle of longitudinal incidence of the axis of rotation of the wheel and downward nanparsed, the linear index scale, the center of which is aligned with the center of one of the mentioned lateral scales.

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