SU375477A1 - DEVICE FOR THE CONTROL OF DEVELOPMENT FROM THE STRAIGHTNESS OF THE OBJECT - Google Patents

Description

one

The invention relates to the field of measurement technology, mainly for controlling the nonlinearity of large objects, such as rail tracks of bridge cranes, conductors of vessels of lifting shaft installations, etc.

A device is known for controlling the deviation from the linearity of an object, which contains a light source, for example a laser, a translucent and opaque mirrors located in the course of the light beam, a carriage with a reflector and a reading device moving along the object being monitored.

The proposed device differs from the known one in that it is equipped with an additional carriage with a reflector located on the path of the light beam passing through the semitransparent mirror, the reading device is made in the form of a screen with a central hole for the passage of the beam and is located between the source and the reflector of the additional carriage, the translucent mirror is installed after readout device and provides direct and reverse optical communication of the reflector of the main carriage with the readout device through an opaque mirror. Each of the reflectors is made of three forming three-sided angle of mutually perpendicular mirrors rigidly connected to the carriage, and is arranged relative to it so that the falling

the beam was successively reflected from all three mirrors.

This difference makes it possible to measure the deviations B of two mutually perpendicular directions and at two different points of space simultaneously with one installation of the light source and the reading instrument and, consequently, to increase the productivity of the control, and also to expand the range of controlled deviations.

The drawing shows the optical layout of the device.

It contains a light source 1 with a collimator 2, a reading device 3, translucent

mirror 4, opaque mirror 5, the main carriage 6 and an additional 7 with reflectors 8 and 9 mounted on them, respectively. The light source is made in the form of an optical quantum generator equipped with a sighting tube 10 and an orienting device 11.

The reading device is made in the form of a screen with a coordinate grid printed on it

with a central hole 12 and with a photo-registering device. The base 6 and additional 7 carriages are identical and structurally made in the form of a mechanical tracking system based on the contacting rollers. The reflectors S and 9, identical in design, are rigidly connected with each of the carriages b and 7. Each of the reflectors is made of three mutually perpendicular mirrors 13–18, which form a trihedral angle and are located relative to their carriages 6 and 7 so that the axis of symmetry of the reflector is parallel the direction of movement of the carriages. The device works as follows. The light source / is exposed by means of the tube 10 and the device // so that the laser beam 19 and the reflected 20 from the mirrors 4 and 5 fall into the known marker-marking points 21 and 22. Then the carriages 6 and 7 are respectively installed on the rails 23 a 24 and move using, for example, a bridge crane. The beams 19 and 20 of the laser, reflecting successively from mirrors 13, 14, 15 and 16, 17, 18, 5, 4, respectively, are recorded by the device 3 visually or with the help of a photographic recorder. The deviation of each rail in space and their position relative to each other are judged by the location of the centers of reflected rays on the reading instrument screen. Subject invention

A device for controlling the deviation from the linearity of an object, for example, a bridge crane track, containing a light source, such as a laser, translucent and opaque mirrors, arranged in the course of a light beam, moving a carriage with a reflector and a reading device in the light beam, characterized in that the purpose of increasing the performance of the control and the expansion of the range of controlled deviations, it is equipped with an additional carriage with a reflector located in the path of the person who passed through the translucent frame The ray of the light beam, the reading device is made in the form of a screen with a central hole for the passage of the beam and is located between the source and the reflector of the auxiliary carriage, the translucent mirror is installed after the reading device and provides a direct and reverse optical communication of the reflector of the main carriage with the reading device through

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W / an opaque mirror, and each of the reflectors are made of three triangular angle mutually perpendicular mirrors rigidly connected to the carriage and positioned relative to it so that the incident beam is successively reflected from all three mirrors. 1. Gzht-g1 1