RU1835485C - Determination method for objectъs cross-section profile - Google Patents

Abstract

The invention relates to an analysis of the spatial characteristics of objects, mainly to active methods for determining cross sections from video information. An object of the invention is to increase the accuracy of determining the position of a cross-sectional profile. To this end, an object of omnidirection is illuminated and observed, perpendicular to the direction of the basis, and the formation of a light raster and the conversion of the optical image into a video signal are performed by sequential synchronous scanning according to the same law, and an additional constant mutual offset is introduced along the direction of the basis when scanning on the parallax value for a given section plane, and the position of the section profile is determined by the amplitude of the video signal. 1 ill.

Description

The invention relates to measuring technique and is intended to determine the cross-sectional profile of an object.

The purpose of the invention is to increase accuracy due to the continuity of scanning.

To achieve the goal, the formation of the raster and the analysis of its position are carried out by sequential synchronous scanning according to the same law.

The drawing shows a device for implementing the method.

The source 1 through the capacitor 2 illuminates the Nipkova disk 4, which rotates the actuator 4, and the moving raster with the lens 5 projects onto the surface 6 of the object. This image of the raster on the surface 6 is focused by the lens 7 on the second Nipkova disk 8, which rotates by the drive 9 in synchronization with the drive 4 of the first disk 3. Moreover, if the projection of the rasters of the disk 3 and 8 on the surface 6 coincides, the radiation

reflected by this surface will be passed through the disk 8 and the objects will collect. 10 at the photodetector 11. If the projection of these rasters does not coincide, the reflected radiation will be delayed by the disk 8. The plane of coincidence of the projection is the position of the section plane and is determined by the magnitude of the offset scan specified by the node 17. Moving the disk 3 along the direction of the basis sets the necessary parallax. corresponding to a given section plane for defining an object profile. When radiation enters the photodetector 11, an electrical signal is generated, which through the amplifier 12

 ignites the source 13. illuminates through the lens 14 the Nipkova disk 15, the position of which is associated with the disk 8 and sets the position of the point of the image being formed. B. As a result, on output, we obtain an image of the trace of the section of an object with a plane in the form

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with ate

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ate

light trail of this section. The resulting image can be directly printed on photographic material or projected at any given scale onto the screen.

The method can also be implemented by other means.

The method allows to obtain an image of a trace of a section of an object by a plane directly in the process of generating a video signal.

Claims (1)

The claims A method for determining the cross-sectional profile of an object, which is to install the radiation source and receiver are poured onto the base distance, a light raster is formed on the surface of the object being monitored, an image of the surface of the object being monitored is recorded, the position of the raster on the object surface is analyzed, and the object’s flow profile is determined from the analysis, which means that, in order to to increase accuracy, raster formation and analysis of its position are carried out by sequential synchronous scanning according to one law. LE 17