SU1256953A1 - Method of controlling adequacy of article and its components - Google Patents

Description

The invention relates to destructive control methods and can be used in the atomic industry and in building to control metal products. The purpose of the invention is to increase productivity by using the photoelectric method of reading information.

FIG. 1 shows a device for implementing a method for monitoring the adequacy of a product and its parts, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 - placement of cells on the product.

A device for implementing a method for monitoring the adequacy of the product and its parts consists of a base 1. on which a cradle 2 is fixed, fixing the position of product 3, and a screen 4. On opposite sides of the plane of symmetry passing through the top of the convergence angle of the planes of the cell 5, a source 6 is installed light with lamp 7 and block 8 readout. The light source B is equipped with a cylindrical optics system projecting the light of the slant body of the lamp 7 onto the plane of symmetry of the cells 5 in the form of a narrow horizontal light band 9 creating a flat light flux 10. The reading unit 8 is a set of optical fibers 1 made of organic glass.

To eliminate illumination from side neighboring light beams, screens 12 made of aluminum foil are installed between the optical fibers 11.

Photodetectors 13 are installed at the end of each light guide 11, for converting and transmitting signals of which the device is equipped with a decoder 14 having

two signal outputs: one for use in combination with a computer, the other to an induction unit 15.

The method of controlling the adequacy of the product and its parts is implemented by the device as follows.

Information on the surface of article 3 is written in the form of coded marking and is read out using a photo-sequential system. Marking is carried out in a non-working zone by forming a relief in the form of cells 5 along line 16 of the intersection of two planes of product 3. The working plane of cells 5 is perpendicular to the plane of symmetry of the angle of convergence of the planes of product 3.

Then the product 3 is installed in the cradle 2, mounted on the base 1 so that in the initial position of the product 3 blocked the path

0 light flux 10 to the first fiber. The screen 4 is pressed against the intersection line of the two planes of the product 3 in a plane perpendicular to the plane of symmetry of the convergence angle of said planes. The light source 6 with the lamp 7 and the photodetector 13 expand so that the luminous flux 10 lies in a plane parallel to the plane of the screen 4 and passes through the gap formed by the screen 4 and the working plane of the cell 5. Then turn on the power supply of all systems and move the product 3 to the left relative to the fiber 11.

When the first cell 5 coincides with the light guide 11, the electronics of the system provides for recording the code through the decoder 14 on the display unit 15.

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Claims (1)

METHOD FOR CONTROLLING PRODUCT ACCURACY AND ITS PARTS, which consists in applying information in the form of coded marking to the surface of the product, reading it using a photographic system, which is used to determine the adequacy, characterized in that, in order to increase productivity by using the photoelectric method information reading, marking is carried out in a non-working zone by forming a relief along the line of intersection of two product planes in the form of cells, the working plane of which perpendicular to the plane of symmetry of the angle of convergence of the indicated planes, the screen is pressed against the intersection line in a plane perpendicular to the plane of symmetry of the angle of convergence of the planes, the light source and the photodetector are positioned so that the light beam lies in a plane parallel to the plane of the screen and passes through the gap formed by the screen and the working plane of the cell. (L sigA b sia <35 s © SP SO