RU78945U1 - OPTICAL ELECTRONIC DEVICE FOR DETERMINING CALCIUM-CONTAINING COMPONENTS OF BUILDING SOLUTIONS - Google Patents

Abstract

An optoelectronic device for determining calcium-containing components of mortars, including a radiation source, a lens, an apodization diaphragm, and means for visualizing radiation that has passed through the object under study, characterized in that it is additionally equipped with an “analyzer-polarizer” system, while the object and lens are located on the optical the axis between the elements of the analyzer-polarizer system, while the apodization diaphragm is mounted on the optical axis between the lens and the polarizer, put from the imaging means.

Description

The invention relates to the field of optical-physical studies of the composition of natural and artificial minerals, namely, studies of calcium-containing components of mortars, and can be used in construction, archeology and other industries.

To assess the novelty and technical level of the claimed solution, we consider a number of technical means known to the applicant for a similar purpose, characterized by a combination of features similar to the claimed invention, known from the information that became public until the priority date of the invention.

A known optoelectronic method for detecting the relief of the mineralized surface of calcified biological tissues is to remove organic matter from a sample of biological tissue, obtain a replica by spraying platinum and carbon on the surface of a sample, remove the mineralized component from the surface with hydrochloric acid, and then study the resulting replica by transmission electron microscopy, see Application for the grant of a patent of the Russian Federation No. 2003110331.

A known method of laser spectroscopy, consisting in the direction of multipath laser radiation to the test sample, receiving radio wave and / or optical radiation from the test sample, followed by processing and recording the spectral characteristics, using a device for laser spectroscopy containing a laser and a receiving device installed with the ability to receive radiation from the test sample and associated with the signal processing and recording spectral characteristics, which INH laser stabilization mode system comprising correcting unit optical length of the laser resonator mirrors associated with the laser, which is a multi-path, the receiver is arranged to receive radiation in the radio and / or optical frequency range, the laser radiation has two or more modes, wherein

modes have central polarization maxima in pairwise coupled orthogonally polarized modes, and the angle of polarization shift between pairwise coupled modes is not more than 2 ^π , and the mode stabilization system is connected through a signal processing and spectral recording unit with radio detectors and / or optical detectors and / or photo detectors contained in the receiving device, see the application for the grant of a patent of the Russian Federation No. 2005104490.

A known method of organizing an optoelectronic channel, according to which the radiation from a UV light source through a monochromator, the polarizer is fed to a crystal, alternately passing the left-handed or right-handed components of polarized light, which are sent to a cell with an optically active substance, and then to a photomultiplier and means of registration, see P.G. Kostyuk et al. "Biophysics", Higher School, 1988, p. 68.

This method allows you to explore various transparent objects by integrated intensity without the possibility of visual research, which significantly reduces the information content of the research.

A known method of organizing an optoelectronic channel for studying various optical media, according to which radiation from a source is passed through a condenser and sent to a container with an object to be studied, then radiation is captured that is sent to a photomultiplier and recording and analysis tools, characterized in that the tank with the studied the object is installed vertically perpendicular to the optical axis with the possibility of three-coordinate movement relative to the optical axis and with the possibility of rotation in a plane a plane perpendicular to the optical axis at any angle, while behind the container with the object to be studied, on the optical axis from the side opposite to the radiation source, a stationary research lens is placed, the image from which is fed to the photomultiplier and recording and analysis tools in which, for visual analysis of color images use a charge-coupled device, see RF patent No. 2198415.

This analogue is inherent in the set of features closest to the set of essential features of the invention, and therefore this known technical solution is selected as a prototype of the claimed invention.

The present invention is based on the solution of a complex technical problem of studying calcium-containing components of mortars in the study of ancient architecture in modern construction and restoration, based on which it is possible to draw conclusions about the ancient building methods, the degree of lime calcination, and the quality of fillers, which ultimately allows you to judge the belonging of a monument of ancient architecture to a particular construction school and to a specific building history eskomu period. Existing methods for the chemical analysis of calcium-containing components are complex, unsafe to use and do not allow for confident conclusions. So, for example, the grinding method of samples previously impregnated with balsam leads to significant changes in the spectral and energy characteristics, which introduces a noticeable error in the research result. In addition, the test samples subjected to chemical analysis cannot be reduced.

The essence of the claimed invention as a technical solution is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the invention.

The optoelectronic method for determining the calcium-containing components of mortars, according to which the radiation from the source is directed to the object under study and the radiation transmitted through the object by means of visualization is examined, is characterized in that the object under study and the lens are placed on the optical axis between two polarizer analyzers, while between a lens and an analyzer-polarizer located on the side of the visualization means establish an apodization diaphragm on the optical axis, aivayut lens on the examined object, achieving the image field, then adjust analyzers polarizer by altering the polarization angle, ensuring the absence

of the main radiation, then the polarization picture that appears on the visualization means is fixed using visualization tools, the polarization picture is adjusted using the lens, then it is compared with reference images obtained in a similar way from calcium-containing components of dated mortars, after which a conclusion is made on the form of the studied object of calcium-containing components and their quantity and age.

This is the totality of essential features that provides a technical result in all cases to which the requested amount of legal protection applies.

The applicant has not identified sources containing information about technical solutions, the combination of features of which coincide with the combination of distinctive features of the claimed invention, which allows us to conclude that it meets the condition of "novelty."

Certain distinctive features of the claimed invention, such as radiation sources, polarization analyzers, apodization diaphragm, visualization means, are known from the prior art, however, the applicant is not aware of any publications that would contain information about the effect of these distinctive features of the invention on the achieved technical result, which consists in the fact that without the use of chemicals and a non-contact method, an enlarged image of particles of a material of a mortar in which calcium-containing components are calmed and it is possible to determine their type and age.

In this regard, according to the applicant, it can be concluded that the claimed technical solution meets the condition of "inventive step".

The invention is illustrated by drawings, where figure 1 shows an optical diagram of a device that implements the claimed method, figure 2 is a configuration diagram of polarizer analyzers.

On the optical axis of the optoelectronic channel that implements the claimed method, there are a radiation source 1, a reflector 2, a custom mirror 3, an analyzer-polarizer 4, a glass slide 5, on which

the studied object 6, lens 7, apodization diaphragm 8, analyzer-polarizer 9, mirror 10, and means for visualizing the polarization picture in the form of a photomultiplier tube 11 and charge communication device 12, which can be used as a digital video camera. In figure 2, position 13 denotes the boundary of the radiation flux in the space of the investigated object, position 14 - the plane of polarization of the analyzer-polarizer 4 (perpendicular to the plane of the drawing), position 15 - the polypolarization structure of the investigated object 6, position 16 - the boundary of the radiation flux in the image space , pos.17 - plane of polarization of the analyzer-polarizer 9 (in the plane of the drawing).

The method is implemented as follows.

The radiation from the source 1 by means of a reflector 2 and a mirror 3 is directed to the studied object 6, which is placed on the optical axis between two polarizer analyzers 4 and 9, while between the lens 7 and the polarizer analyzer 9 located on the side of the visualization means on the optical axis set the apodization diaphragm 8. At the beginning, the polarization analyzers 4 and 9 have a common plane of radiation polarization. The studied object 6 is placed on a glass slide 5, after which the lens 7 is tuned to the studied object 6, achieving image sharpness. After that, the polarization analyzers 4 and 9 are tuned by changing the plane of polarization, achieving the absence of the main radiation, which becomes the background for the resulting polarization picture. Apodization aperture 8 minimizes wave distortion associated with diffraction, glare and reflections of the optical system. Then, using the visualization tools 11 and 12, the polarization pattern that appears on the visualization means is fixed and its lens 6 is adjusted. Obtained by the claimed method, the polarization picture has a characteristic form, depending on the type of calcium-containing components and the technology for the preparation of mortars. After that, the polarization picture is compared with reference images obtained from calcium-containing components of dated mortars, obtained in a similar way, after which a conclusion is made on the type of incoming

into the studied object of calcium-containing components and their age (natural CaCO ₃ , CaSO ₄ , calcined CaCO ₃ , etc.).

Visualization of the resulting polarization pattern allows using the probe settings in the optical scheme of the photomultiplier 11 to obtain additional characteristics of the studied components.

A micrometric grid with a step of 10 microns can be applied to the obtained polarization picture. Processing such a polarization picture using well-known methods for measuring the distances and sizes of the studied samples, for example, the Goryaev’s camera, allows to determine the quantitative characteristics of calcium-containing components.

The claimed method was tested by specialists of the St. Petersburg Institute of the History of Material Culture in the study of mortars and plasters of monuments of ancient Russian architecture. The method made it possible to determine with a high degree of reliability the nature of mortars by the degree of lime calcination, the percentage and quality of fillers, which made it possible to judge the monument's belonging to a particular school of construction and a certain construction period and confirm the scientists' assumptions about the technological methods of ancient Russian builders. The claimed method made it possible to establish that the ancient builders practically did not take into account the hydraulic characteristics of lime and its appearance depended mainly on the quality of the source material - limestone, but at the same time, builders observed clear ratios between mortar fillers.

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the application means and methods by which it is possible to carry out the invention in the form described in the claims. The claimed method can be implemented using well-known technologies and technical optoelectronic devices, which determines, according to the applicant, its compliance with the condition of "industrial applicability".

Using the claimed solution in comparison with all known means of a similar purpose provides the following advantages:

- non-contact research;

- lack of need for the use of harmful and toxic chemicals;

- speed of data processing and obtaining results;

- visualization of the object of research;

- measurement of the energy characteristics of the investigated object by wavelength and radiation frequency;

- reliable identification of calcium-containing components of mortars, their types, as well as related impurities and additives.

Claims (1)

An optoelectronic device for determining calcium-containing components of mortars, including a radiation source, a lens, an apodization diaphragm, and means for visualizing radiation that has passed through the object under study, characterized in that it is additionally equipped with an “analyzer-polarizer” system, while the object and lens are located on the optical the axis between the elements of the analyzer-polarizer system, while the apodization diaphragm is mounted on the optical axis between the lens and the polarizer, put from the imaging means.