SU1449840A1 - Photoelectric measuring device - Google Patents

Abstract

The invention makes it possible to measure the linear dimensions of a part. The aim of the invention is to simplify the device by otherwise performing a light sweep assembly. The illuminator 1 forms a collimated light beam, illuminates with it the entire raster 4, which periodically alternates transparent and opaque strokes. Along the strokes of the raster 4, a slit diaphragm consisting of two parts 5 and 6, whose slit width is equal to the width of the raster line, is moved to form a narrow light beam, ensuring its movement parallel to the optical axis of the device and at the same time modulating it. A moving narrow light beam that is not shielded by the object 12 that is being monitored is received by the receiving unit. The modulated signal from the receiving unit is converted into a pulse signal in the processing unit 10, where the number of pulses is calculated according to which the linear size of the monitored object is judged. 12.1 Il. i (L

Description

The invention relates to measuring equipment and can be used for non-contact measurement of the linear dimensions of parts in the machine and instrumentation. ⁵

The aim of the invention is to simplify the device by otherwise performing a node light scan.

The drawing shows a schematic diagram of a device.

The device includes a illuminator 1, including a light source 2 and a lens

3, in the focus of which a source is installed, a raster · 4 of alternating transparent and opaque strokes, a slit diaphragm made of two parts and 6, mounted with the ability to move parallel to the raster, part of the diaphragm 6 is made elastic, 20 a receiving unit including a lens 7 and a photodetector 8 with an amplifier 9, a processing unit 10 and a slot diaphragm moving mechanism 11.

The drawing also shows a controlled object 12, for example, a shaft.

A portion of the diaphragm 6 made of an elastic film is bonded to a device case (not shown). ''

The device operates as follows 30 times.

Preliminarily, the device is installed relative to the controlled object 12, for example, in the form of a shaft (mounted on the spindle of a metal-cutting machine) so that the axis of the roll is perpendicular to the direction of movement of the diaphragm and the optical axis of the device.

Illuminator 1 forms a parallel — 40th beam of rays and directs it to raster 4. Radiation transmitted through the raster

4, and part 5 of the diaphragm using the lens 7 of the receiving unit is projected onto a photodetector 8, in which the light radiation 45 is converted into an electrical signal, amplified in an amplifier and fed to processing unit 10:

When moving part 5 of the diaphragm using the movement mechanism 11 along the raster 4, it sequentially passes along alternating transparent and opaque strokes of the raster 4, as a result of which an electric sinusoidal signal is generated at the output of the receiving unit. In processing unit 10, it is converted into a pulse signal and the number of pulses is counted using a pulse counter of processing unit 10.

The controlled object 24 will block the light beam from the illuminator 1, the past raster 4 and part 5 of the diaphragm. The amount of overlap of the beam by the controlled object 12 is equal to its projection on the surface of the raster 4.

The linear size of the controlled object 12 is determined as the product of the linear value of the transparent stroke of the raster by the number of pulses equal to (N-m), where N is the total number of pulses generated by the raster in the absence of the object; m is the number of detected pulses not shielded by the object.

The return of the slit diaphragm to its original position can be achieved due to the elastic properties of its elastic part 6.

Claims (1)

Claim A photovoltaic measuring device comprising a housing, an illuminator and. sequentially located along the radiation slit diaphragm, a raster of alternating transparent and opaque strokes, a receiving unit, a processing unit electrically connected to the receiving unit, and a movement mechanism, characterized in that, in order to simplify the device, the raster is made flat and installed motionless, the diaphragm is made of two interconnected parts, the first of which is elastic and fastened to the body, and in the second, a slot is made on the connection side, the width of which is equal to the width of the raster strokes, the second hour s is connected to the moving mechanism and is movable parallel to the raster plane. · VNIIIPI Order 6957/41 ________ Circulation 680 _________ Subscription Custom polygon. ave, city of Uzhhorod, st. Project, 4