SU994915A2 - Device for determining incline angle - Google Patents

Description

(5) DEVICE TO DETERMINE AN INCLINATION ANGLE

The invention relates to devices for determining the angle of inclination.

According to the main author. St. If the device for determining the inclination angle contains a light source, a polarizer, a system for rotating the polarization plane of a linearly polarized beam, made in the form of an optically transparent reservoir, which is partially filled with a liquid that has the ability to naturally rotate the polarization plane, as well as an analyzer and a photodetector C1 block

The known polarization devices have a high accuracy of measuring tilt angles, but its implementation requires the use of highly sensitive and time-stable photodetectors and electronic amplifiers, or the use of liquids with a large coefficient of rotation of the polarization plane.

The purpose of the invention is to increase the sensitivity of the device without complicating the photodetector unit.

This goal is achieved by implementing the principle of optical amplification by expediently changing the path of a linearly polarized beam, namely as a result of placing at least one quarter-wave phase plate between the polarizer and the analyzer, the axis of extreme speed parallel to the axis of the polarizer’s maximum transmission and there is a reflective unit returning the beam through the plate and the optically transparent reservoir to the analyzer.

Claims (2)

20 In addition, the device provides for an even number of quarter-wave pairs of the retroreflective phase plate, while successive pairs are located 3EE on opposite sides of the tank while maintaining the location of the polarizer and analyzer on different sides of the tank. The drawing shows one of the channels of the proposed device (the construction of the second channel for the selected working plane, in which the angle of inclination is measured, or the other channels for the other working planes is the same). A parallel beam of light from a light source, formed using a collimator (light source and collimator not shown) is directed to a polarizer 1, and then passes through a reservoir 2, partially filled with liquid 3 with the ability to rotate the polarization plane of linearly polarized light into depending on the thickness of the liquid layer, and thus on the angle of inclination of the tank. The first quarter-wave phase plate i and the retroreflective node consisting of the focusing lens 5 and the mirror 6 are mounted behind the opposite base of the reservoir 2. Such a node can also be made with a prism, providing parallel displacement of the reflected beam. After the quarter-wave plate, lens 5 and mirror 6 have passed, the light beam is rotated 180 degrees and is again directed through reservoir 2 with liquid 3. After passing all pairs formed by plate k and reflecting node 5 6 and leaving the reservoir 2, the light beam passes the module torus 7, analyzer 8, and enters the photodetector connected to the inputs of the unit (not shown) measurement. Fluids with natural rotation of the plane of polarization of linearly polarized light, when light passes through them in the forward and reverse directions The plane of polarization is turned on one and the same angle, but with different signs. As a result, a linearly polarized beam of light that passes through such a liquid twice (there and back) does not change the sign of the angle of rotation of the plane of polarization. A quarter-wave phase plate is equivalent to a half-wave phase plate with the passage of linearly polarized light 4 through it and direct and reflected in the 1BO directions. If a linearly polarized beam of light passes a half-wave phase plate at any angle between the axis of the smallest (lowest) speed half-wave phase plate and the polarization plane, then the light beam emitted from the half-wave phase plate has the same angle between the indicated axis and the plane, but with the opposite sign, i.e. a half-wave phase plate performs the operation of the mirror inversion of an angle about its axis of the highest (lowest) speed. Since after each successive passage of the linearly polarized light beam of the Liquid layer 3, the angle of rotation of the polarization plane is accumulated, for the total angle of rotation of the polarization plane the relation (-1) -10-4-3 is valid, where n is the number of the beam passing light liquid layer; H is the angle of rotation of the plane of polarization of light when it passes once through a layer of liquid. In general, the operation of the proposed device is similar to that of the known device and consists in the fact that the optical channels form linearly polarized beams of light, the layers 3 of the liquid of the reservoir 2 rotate the plane of polarization of the light beams at certain angles. As a result, electrical signals are generated at the output of the photodetectors, the parameters of which carry the measured information. If, for example, the rotators of the polarization plane of a linearly polarized beam are used as modulators, then the phase angle between the electrical signals of the photodetectors is directly proportional to the angle of inclination of the device. The measuring unit in this case should work as a phase meter. The introduction of quarter-wave phase plates with reflectors increases the sensitivity and, therefore, the measurement accuracy of the device. The sensitivity of the device can be increased 5 times, if, for example, in each optical channel, four quarter-wavelength pairs of a wave-phase plate — a reflecting node — are introduced. Claim 1, A device for determining the yi a tilt by ed. St. No, in order to increase the sensitivity without complicating the photodetector unit, during the rays, at least one quarter-wave phase plate is installed between the polarizer and the analyzer, the axis of extreme velocity parallel to the axis of the greatest polarizer transmission, and the reflective node located behind it, returning beam through the plate and the optically transparent reservoir to the analyzer. 2. The device according to claim 1, which is one that contains an even number of pairs of pervertwave phase plate-retroreflective assembly, with consecutive pairs located on opposite sides of the tank while maintaining the location of the polarizer and analyzer on different sides of the tank. Sources of information taken into account in the examination 1. USSR author's certificate No. 649951, cl. Q 01 C 9/32, 1979.