SU648832A1 - Aspheric reflector checking device - Google Patents

Description

on the other end of the flat-profiled cam, whose profile is made along the curve, and the leash of the flat mirror is constant soy / seam with the cam.

Such an execution of the node by skavirovav provides the temperature of the deviation of the radius of curvature of the test surface in any section, perpevdikom o to its optical axis, i.e. the deviation of the X coordinate at a rigidly fixed coordinate y.

The drawing shows a kinematic diagram of the device.

It contains a radiation source 1, in the example of a laser, a device 2 for fastening and turning a controlled reflector, a scanning unit.

The assembly is made in the form of a parallel-optical axis of the sector & gateway 3 of the movable arm 4, one at the end of which is fixed pentaphysym 5, the output axis of which is perpendicular to the optical axis of the reflector P 3 , associated by a clamping spring 8 with a driver 9, which is rotatable relative to the fixed hinge support 1O of the flat mirror 11. The source also includes a condens. sor 12 and block 13 registration.

The cam profile is made according to the curve described by equations.

 sr (coaoto-cosoc);

yi rsinoi j.

where 0 is the position of the position of the rotating mirror, equal to the angle of the angle of the tangent to the scanning point of the theoretical reading of the controlled surface;

P - the radius of the circle described by the leash.

The device works as follows. The test reflector 3 is installed in the housing of the fixture 2 for fastening and turning. The laser beam 1 enters through the entrance hole of the bracket 4 to the pentaprism 5 fixed in its groove (for example, vivt (4)), it refracts and hotflats onto the measured surface of the aspherical otpravzhatel 3 in a plane perpevd klufva to its optical axis. Reflected from the surface the tested reflector 3, the beam is refracted by the ppooi & l mirror 11, connected by means of the winding 9 by the pressing spring 8 with a flat profile cam 7 fixed at the other end of the brace 4.

The profile of the flat-cam 7, made along the curve described by the dependencies, provides, when moving the crush line 4 along the optical axis of the aspherical reflector 3, by means of the nut 6, the rotation of the flat mirror 11 by an angle equal to the angle of inclination of the theoretical profile of the test surface at which the beam reflected from the point coinciding with the point lying on the theoretical surface of the reflector 3 is refracted in a direction parallel to the optical axis of the condenser 12, unmoved.

Reflected from the rotary flat mirror 11, the beam is focused by a condenser 12, in the focal plane of which a recording unit 13 is mounted. In case of error on the controlled reflector 3, the course of the scrolling beam will change, and the beam reflected from the flat mirror 11 will not be parallel to the optical axis of the condenser 12, which will cause the image in the focal plane to shift by an amount proportional to the deflection radius of the reflector curvature in a controlled section, which is fixed on the scale of the registration unit 13.

Claims (2)

1. Development of lighting devices for new models of automotive tools. Report of the Research Institute of Automobile Devices. State register. № 74007511, t. 1,22.02.74. 2. USSR author's certificate № 267О84, cl. Q O1 B 11/24, 1970.