SU1354034A1 - Device for measuring diameter of articles - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to improve the accuracy of measurements by eliminating erroneous results associated with a violation of the centering of the product relative to a discrete photodetector. A device for measuring the diameter of products contains an optically coupled light source 1, a collimating lens 2, a focusing lens 3, and a discrete photodetector 4, on which the shadow invention of the monitored product 8 is built. elements of the two parts of the first group of 5 two-input elements And two orderly sets of signals | Y are formed. | HY j, Y / X, where Xj is the signal from the i-th discrete of the corresponding part discretely a photodetector 4 and X - signal from the i + 1-th increment the same discrete portion of the photodetector 4. The time point when controlled, the product 8 is aligned with the discrete photodetector 4, Y; and one of the elements of the second group 6 of the two-input elements And triggers, and the indicator 7 indicates the diameter value. In the interval between the diameter registration, when the centering of the product 8, Y is violated and none of the elements of the second group 6 is activated, and the indicator 7 during this time indicates the value of the last registered diameter. 1 il. G i sl 00 cd about 00

Description

The invention relates to a measurement technique and can be used to measure the diameters of products.

The aim of the invention is to improve the accuracy of measurements by eliminating erroneous results associated with the violation of the alignment of the product relative to a discrete photodetector.

The drawing shows a functional diagram of the device.

A device for measuring the diameter of products contains an optically coupled light source 1, a collimating lens 2, a focusing lens 3, and a discrete photodetector 4, consisting of two symmetrically arranged parts of n samples each, the outer samples being older, the first group 5 two-input elements And, consisting of two parts along n-1 element And with one direct and

one inverse inputs in each, the second external border of the image; I am building a group of 6 two-input elements AND, consisting of n I-elements, and an indicator 7 with n inputs, direct inputs i of the AND elements of the first and second parts of the first group 5 two-input elements And are connected to the outputs i of the discretes of the first and second parts of the discrete photodetector 4, respectively, the inverse inputs i of the elements And the first and second parts of ne, the left group 5 of the two-input elements And are connected to the outputs i + 1 of the discrete dimensions of the first and second parts of the discrete photodetector a 4, corresponds In principle, the first and second inputs i of the element AND of the second group 6 of two-input elements AND are associated with the outputs i of elements AND of the first and second parts of the first group 5 of two-input elements AND, respectively, the first and second inputs of the element AND of the second group 6 of two-input elements And are associated with the outputs n discretes of the first and second parts of the discrete photodetector 4, respectively, the output from the AND element of the second group 6 of the two-input elements AND are connected with the i input of the indicator 7,

A device for measuring the diameter 45 of products, containing a sequentially installed light source, an optical system for transferring an image to an analysis plane, a discrete photodetector consisting of 50 two parts of n discrete each, while the discrete external with respect to the photodetector axis signal processing circuit and device operates as follows. An indicator with n inputs, distinguished by a Collimated beam of light, is formed so that, with a view to being enhanced by source 1, light a and a collimating lens 2 illuminate the item 8 being monitored, the shadow image of which is , the signal processing circuit is designed as a group of two-input elements AND, consisting of two parts according to n-1 element in

of the lens 3 is built on a discrete photodetector 4. The illuminated portions of the discrete photodetector 4 correspond to logical O, the darkened to logical 1,

On any i element of both parts of the first group of 5 two-input elements, And a signal is received X- with i-ro

Q sampling of the corresponding part of the discrete photodetector 4 and the signal X; + 1 with the i-t-1-th discrete of the same part of the discrete photodetector 4. At the output of this element, the signal Y & X., Where j is the part number of the first group of 5 two-input elements I.

As a result, at the outputs of the elements of both parts of the first group of 5 two-in and out elements, two ordered sets of signals Y are formed. | And each of which is a single position code, the location of the unit in which

The corresponding edge of the controlled product is 8. V. The moments of time when the controlled product is 8-centered with respect to the discrete photodetector 4, {Y. j Y and one of the elements of the second group 6 of the two-input elements And operates, and the indicator 7 indicates the diameter value.

In the interval between the registration of the diameter, when the centering of the product 8 is violated, {Y / j Y Y | and none of the elements of the second group 6 is activated, and the indicator 7 during this time indicates the value of the last registered diameter.

Claims (1)

Invention Formula A device for measuring the diameter of products, containing a sequentially installed light source, an optical system for transferring an image to the analysis plane, a discrete photodetector consisting of two parts of n discrete each, while the discrete external with respect to the photoreceiver axis are signal processing and in a speaker with n inputs, distinguished by the fact that, in order to increase nor the accuracy of the measurement, the signal processing circuit is made as a group of two-input elements AND, consisting of two parts according to p-1 element in 313540344 each with one direct and one inverse input elements And are associated with the output inputs, the second group of two inputs of the i-x elements And the first and second elements And, consisting of p ele-parts of the first group of two-input cops, direct inputs of i-x elements And, respectively, the first and The first and second parts of the first group are the second inputs of the nth element and the second of the two-input elements And the groups of the two-input elements are connected And connected by the outputs of the i-x discretes of the first and are connected to the outputs of the n-x discretes of the first a swarm of parts of a discrete photodetector and a second part of a discrete photoreceiver, respectively, inverse inputs from the receiver, respectively, output i-ro outputs i + 1-x discretes of the first element And the second group of two-input the second part, the first and second inputs of the elements And is connected with the i-th input of the indi-ro element AND the second group of two-cator.