RU2735071C1 - Device for controlling paper parameters by structure thereof using granulometry methods using laser speckle photography methods while fixing structure image - Google Patents

Abstract

FIELD: paper.

SUBSTANCE: invention can be used for controlling paper parameters. Essence of the invention consists in the fact that the paper parameters control device by its structure using the granulometry methods using the laser speckle-photography methods when fixing the structure image contains the optical radiation source, a device for recording a structure image, a computing unit, software, wherein the optical radiation source used is laser radiation at wave length 532 nm, can install other sources of optical radiation, if required method of investigation, device has significantly reduced dimensions - 350 × 250 × 150 mm and weight - not more than 5 kg.

EFFECT: technical result is enabling reduction of device dimensions, as well as ensuring its versatility.

1 cl, 4 dwg

Description

A device for controlling paper parameters by its structure by granulometry methods using laser speckle photography methods when fixing an image of the structure belongs to the field of automation, telemechanics and computer technology and can be used to determine the surface structure of materials.

Of the known, the closest in technical essence is the "Device for assessing the quality of the lumen of paper web and fibrous semi-finished products in the conditions of laboratories of pulp and paper enterprises Anfor 02-2 (http://prom-pribor.spb.ru/Prib11.htm), containing electronic -measuring unit, personal computer, printer, connecting cables, software. The installation is designed to assess the quality of the paper web and fibrous semi-finished products in the laboratory of pulp and paper enterprises. Provides objectivity in assessing the quality of the paper web clearance, characterizing it with numerical indicators. In addition, this installation allows you to create an archive of images of the lumen of paper samples with the corresponding technological parameters of the paper machine. The accumulated data archive makes it possible to analyze the relationship between the quality of paper clearance and technological parameters. The data obtained on the "Anfor" installation can be used to adjust the modes and optimize the paper machine operation in order to obtain the best paper clearance.

The disadvantage is that the Anfor 02-2 device has large dimensions 450 × 620 × 280 mm, weight 8 kg, outdated components and lack of versatility.

The proposed invention is aimed at reducing the analysis time of the paper web, which will serve to reduce the production of defective products.

This is achieved by the fact that a device for controlling paper parameters by its structure by granulometry methods using laser speckle photography methods when fixing an image of a structure, containing an optical radiation source, a device for recording an image of a structure, an electronic measuring unit, software, according to the proposed invention, has the ability connecting a computer, laptop or tablet as a computing device, as well as a printer if necessary, has significantly reduced dimensions (350 × 250 × 150) and device weight (no more than 5 kg), which makes the device more mobile.

In addition, the device allows you to change the source of optical radiation (laser radiation, daylight, LED, etc.), has the ability to install additional lenses, if required by the method of using the device.

The introduction of the universality feature provides the ability to obtain an image of the paper structure by various methods, which allows more accurate research, as well as the use of this device in the study of the structure of other materials.

Performing surface structure analysis provides quick insight into material performance.

The essence of the invention is illustrated by a drawing, where FIG. 1 shows a block diagram of the proposed device for controlling paper parameters by its structure by granulometry methods using laser speckle photography when fixing an image of the structure; FIG. 2 shows a diagram of the operation of the device, FIG. 3 shows the external view of the device; FIG. 4 - internal content of the device.

The device consists of a body 1, in the lateral part of which a gate 2 is installed. The body of the device contains an optical radiation source 3 connected to a power supply 4, a lens 5, a device for recording an image of a structure 6 connected to a computing device 7 via a USB port. The computing device 7 contains software 8 and a database 9 for processing and storing the obtained images of the structure.

On the side of the gate 2 in the housing 1, an opening 10 is made, in the upper part of the housing 1 there is a rectangular recess, in the wall of which a groove is made, in the housing 1 next to the optical radiation source 3 a groove is made for leading the wire to the power supply 4.

A device for controlling paper parameters by its structure by granulometric methods using laser speckle photography methods when fixing an image of the structure as follows.

A sample of material is inserted into the gate and pressed against a body made of St3 steel with a thickness of 1 mm. A laser with a wavelength of 532 nm is connected to a 220 V power supply. The laser beam is reflected from the surface of the material, passes through the lens and enters the camera lens. A camera connected to a computing device with installed software registers the received image. The program processes and analyzes the image, displays the characteristics of the structure of the test sample and places the obtained result into the database.

The proposed device allows for express analysis of the surface structure during quality control in the production of paper and other materials.

Claims (1)

A device for controlling paper parameters by its structure by granulometry methods using laser speckle photography methods when fixing an image of a structure, containing an optical radiation source, a device for recording an image of a structure, a computing unit, software, characterized in that laser radiation is used as a source of optical radiation with a wavelength of 532 nm, it has the ability to install other sources of optical radiation, if the research method requires it, the device has significantly reduced dimensions - 350 × 250 × 150 mm and weight - no more than 5 kg.

Images