RU1772251C - Knitted cloth structure controlling device - Google Patents

Abstract

The invention relates to measuring instruments and can be used on textile machines. The aim of the invention is to increase the accuracy of counting. For this purpose, a lens with reflective surfaces lying on the optical axis of a cylindrical lens and optically coupled to two pairs of photodetectors located in mutually perpendicular planes is used. Counting the number of structures is carried out by means of a counter with a registrar. 2 ill.

Description

The invention relates to measuring instruments and can be used on textile machines

The purpose of the invention is to increase accuracy in determining the number of mutually perpendicular structures.

In FIG. 1 is a structural diagram of a device; in FIG. 2 - time diagrams of electrical signals,

The device comprises a protective glass 2 mounted in the housing 1, a illuminator 3, a cylindrical lens 4, an objective 5, a prism 6, an aperture 7.8.9, 10, photodetectors 11. 12. 13, 14, amplifiers 15, 16, 17, 18, match patterns 19, 20 and a counter with recorder 21.

The structural device is made in the housing 1, in the lower part of which there is a protective glass 2, a illuminator 3. A cylindrical lens 4 is placed above the protective glass 2. The protective glass 2 protects the device from dust, from mechanical damage to the optical parts and for alignment when measuring the plane paintings.

Illuminator 3 illuminates the controlled web

The cylindrical lens 4 is positioned so that the optical axis of the lens 4 is parallel to the plane of the protective glass 2 and the plane of the web. This is done so that there is a luminous flux having the same parameters from the plane of the lens 5.

Above the cylindrical lens 4, the lens 5 is located so that its optical axis is placed above the center of intersection of the optical axis and the center of symmetry of the cylindrical lens 4. And the top of the prism 6 is parallel to the plane passing through the sagittal section of the cylindrical lens 4 and parallel to the plane canvases. The lateral exterior mirror surfaces of the prism 6 are located at an angle of 45 degrees with respect to the plane of the lens 5 and the plane perpendicular to the plane passing through the meridional section of the cylindrical lens 4 and parallel to the plane of the web. This makes it possible to create a uniform luminous flux in the plane of the lens 5 and ensures the separation of the transformed image by the prism 6 in half, with both halves

h

4 Yu

to

(L

the transformed images are characterized by the same light parameters.

The diaphragms 7, 8, 9,10 with the photodetectors located behind them 11.12, 13, 14 are arranged in pairs so that the straight lines passing through the centers of the photosensitive zones of the photodetectors are mutually perpendicular, and one pair of photodetectors 11, 12 lies in the plane which is parallel to the plane of the meridional section of the cylindrical lens 4, and the other pair of photodetectors 13.14 lies in a plane parallel to the plane of the sagittal section of the cylindrical lens 4. Due to this arrangement of the diaphragms 7, 8, 9, 10 and photodetectors 11, 12, 13, 14 is provided the ability to simultaneously read the transformed image of structures parallel to the line passing through the centers of the diaphragms 7, 8 of the photodetectors 11, 12 and the transformed image of structures parallel to the line passing through the centers of 9, 10 of the diaphragms and photodetectors 13, 14. In this case, the lines these are mutually perpendicular. The aperture planes 7, 8 and 9, 10 are at different distances from the lens 5.

One pair of diaphragms 7, 8 is in the plane of the enlarged focused image of structures parallel to the plane of the sagittal section created by the cylindrical lens 4 and lens 5, and the other pair of diaphragms 9, 10 is in the plane of the enlarged focused image of other structures parallel to the plane of the meridional section created by the cylindrical lens 4 and lens 5. This provides a simultaneous separate view of the transformed image mutually perpendicular structures that are monitored. In this case, the image of some structures lies in the plane of the diaphragms 7, 8, and the image of other structures perpendicular to the first lies in the plane of the diaphragms 9, 10.

The outputs of the photodetectors 11, 12, 13, 14 are electrically connected to the corresponding inputs of the amplifiers 15, 16, 17, 18.

The output of amplifier 15 is connected to the input of match circuit 19, the output of amplifier 16 is connected to the input of match circuit 19. The output of amplifier 17 is connected to the input of match circuit 20. The output of amplifier 18 is connected to match input. 20. Such a connection of the outputs of the amplifiers 15, 16, 17, 18 and the inputs of the matching circuits 19, 20 makes it possible to read the transformed image of the structures while passing the transformed images of the structures in front of each pair of photodetectors 11, 12 and 13, 14.

The outputs of the matching circuits 19, 20 are connected to the inputs of the counter 21 with the recorder. This provides simultaneous separate registration of mutually perpendicular structures.

The device operates as follows,

During the measurement, the device moves over the plane of the fabric so that its path of movement passes along the diagonal of a square with a side equal to the distance at which it is necessary to measure (in the case of measuring the density of knitted fabrics, the distance is determined to be 100 mm). The sides of the square should be

0 are parallel to the respective controlled structures, i.e., for example, side a is parallel to the hinge posts (or weft threads), and side b is parallel to the hinge rows (or warp threads).

5 When moving the device in front of the corresponding pairs of photodetectors 11, 12 and 13, 14 (Fig. 1), the elements of the transformed image of the controlled structures will pass in the form of alternating light and dark stripes, while, as was said above, since the straight lines passing through through the centers of the photosensitive zones of the photodetectors 11, 12 and 13.14, are mutually perpendicular, provided

5 observing the parallelism of the corresponding sides of the square a to the looped posts (or weft threads), a b to the looped rows (or warp threads) (Fig. 2) in front of the corresponding pairs of photodetectors 11, 12 and

0 13, 14, the corresponding transformed image elements of the controlled structures will pass simultaneously. From the outputs of the corresponding pairs of photodetectors 11, 12 and 13, 14, the electric signals are fed to the corresponding inputs 19 and 20 of the matching circuit, and if the parallel conditions of the corresponding sides of the square are looped bollards (or nit m weft), ab looped

0 rows (or warp threads), at the outputs of the respective matching circuits 19 and 20 volts pulses (Fig. 2), which are then fed to the corresponding inputs of the counter with recorder 21. In this case

5, counting and corresponding registration of controlled structures that are perpendicular to each other occur.

Claims (1)

SUMMARY OF THE INVENTION A device for monitoring the structure of knitted fabrics containing a counter with a recorder, a cylindrical lens, the longitudinal axis of which lies in a plane parallel to the plane of the web and is separated from it by protective glass, a illuminator and photodetectors coupled in pairs grouped in diaphragms, each pair of which is connected through amplifiers to the corresponding inputs of matching circuits, the outputs of which are connected with counter outputs with a registrar, characterized in that, in order to increase accuracy in determining the number of mutually perpendicular structures, it is additionally contains a lens and a triangular isosceles prism, the apex of which is made rectangular, and the surface is reflective, moreover, above the cylindrical lens, along its transverse optical axis, perpendicular to the plane of the web, a lens and a prism are placed in series, the top of which is facing the lens and parallel to the plane of the web, This orthical axis of the first pair of photodetectors passes in a plane parallel to the base of the prism, and the second pair is perpendicular to its base. FIG.