SU954815A1 - Device for checking optical system centering - Google Patents

Description

Izbrehshego the combustor, and the recording system in the form of a mshfoskop | lj. The disadvantage of this device is the impossibility of obtaining cacific information about the limits of the fire control systems The most closest to the technical dryness and to the achievable result to the proposed 5tpu device for controlling triple optical systems, containing a light source, sending objects along the optical path along the optical axis of the source, svetoshgeggel and system 2. The disadvantage of the unknown device is the low control performance, due to the need to sequentially install the lens in the calculated positions on the optical axis for ntifikatsii controlled at the far point of the optical system formed by its surface avtokoplimatsi- senym image source. The purpose of the Invention is to increase production control. The goal is achieved by the fact that the device is equipped with a system of two conical mirrors, the sum of the solution angles is equal to ЗБО, one of the mirrors is made in the form of a cone with an external reflecting surface, and the other in the form of a hollow truncated cone with an internal reflecting surface, the mirrors are taken out one inside the other between the lens and the beam splitter so that

The KoirycoB bases are facing the beam splitter, and the geometrical axis of each of the cones coincides with the optical axis of the lens.

The drawing shows a snapshot diagram of a device for controlling the centering of grid systems.

The device contains, the source of light 1, in the form of a laser and a lens mounted behind it, a lens 2, conical mirrors 3 and 4, a beam splitter 5 AND the recording system 6, made in the form of a lens and a screen. The controlled system 7 is installed behind the beam splitter during puffing from source 1, Mirror 3 is made in the form of a cone with an external reflective surface, and mirror 4 in the form of a hollow truncated cone with an internal reflecting surface. The mirror 3 is installed inside the mirror 4 between the lens 2 and the light connector 5 so that the bases of the cones are facing the deflector 5, and the geometric axis of each w cones coincides with the optical axis of the lens 2 The sum of the angles of the solution of the conical mirrors 3 and 4 is equal to 30%.

The device works as follows

The light from the source 1 passes the object in 2, subsequently reflected from the conical mirror 3, 4 n, is directed by the light driver 5 to the counter optical system 7 in the form of a beam of rays having, in conjunction, the optical axis, in the shape of a beam. The light reflected from the surfaces of the controlled sion of theme 7 is a beam of divider 5 and enters system 6 of repastration. The mechanism of resemblance (not shown) is driven by a junction 2 in the BOOTspaTHo-nocryria and a double distance from the axle. source 1, while in the plane of the screen of the system 6 registfadvi psk 1 1dov. Avo-collimating reflections of the source 1 in a circle reflecting light from the surfaces con)) of the system 7 are formed. The radius of each

circumference is unambiguously related to the radius of curvature of the surface, which this circumference forms, and the magnitude of the displacement of the center of the circumference from the device’s hygienic axis —C to the amount of decentering of this surface of the monitored system 7. The measurement results do not depend on the distance between the device and a controversial system 7.

Improving the performance of measurements using the proposed device is achieved by supplying the known device with a drive rigidly connected with the lens and a system of two conical mirrors.

Claims (2)

1.DanilevEgch, FM, Nikitin, V.A., and Smirnova, E.P. Assembly and Adjustment of Konggel Kzhnr- Measuring Instruments. Reference manual. L ,, Mechanical Engineering 1976, p. 59-60. 2. In the same place 56-59 (prototype).