RU2752806C1 - Allaberganov spectral multifunctional research complex - Google Patents

Abstract

FIELD: objects research and analysis.

SUBSTANCE: invention relates to the field of research and analysis of various objects. The spectral multifunctional research complex contains a power frame and computer control equipment, monitors, a digital video microscope, a video microscope-endoscope, light filters, a white light emitter, at least one infrared emitter and at least one ultraviolet emitter, a digital capillary video microscope removably mounted on a power frame with the ability to change its vertical and horizontal position, rotate 360° along the vertical and horizontal axes and change the viewing angle of the object under study. Monitors are equipped with linear directional light emitters installed along their perimeter with the ability to illuminate the monitor screens in a given direction along the plane of the screens. Video microscopes are equipped with directional ring light emitters.

EFFECT: possibility of conducting a wider range of studies with a larger range of objects with a reduction in the time of research while ensuring their high reliability.

1 cl, 2 dwg

Description

The invention relates to the field of research and analysis of objects, materials, images, digital information and can be used to recognize, determine the identity, authenticity and composition of objects, substances, documents, for example, in forensic science, banking, medicine, biology, archeology, art.

From the prior art, spectral multifunctional research complexes (RU 2678413 or RU 2674495 - prototype) are known, oriented mainly for the analysis of documents in determining their identity or authenticity, and containing a power frame and removable computer control equipment, monitors, digital video microscope installed on the power frame, video microscope-endoscope, light filters, white light emitter, at least one infrared emitter and at least one ultraviolet emitter associated with said control equipment connected to said monitors and configured to process the obtained results of object examination, while said video microscopes are installed with the ability to change its vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the viewing angle of the object under study, and light filters, a white light emitter, at least one infrared ny emitter and at least one ultraviolet emitter are installed with the possibility of changing their vertical and horizontal position, as well as changing the angle of illumination of the investigated object.

The disadvantages of the known technical solutions are limited technological capabilities and increased complexity of the analysis due to the fact that in order to achieve a sufficiently high degree of reliability of studies for cleaning the images of the object under study from various electromagnetic interference, digital filtering of images is necessary, carried out using appropriate devices for processing signals in the control equipment.

The technical problem to be solved by the invention is to expand the technological capabilities of the complex and simplify the process of analyzing objects.

The technical result provided by the claimed invention is the ability to conduct a wider range of studies of a larger range of objects with a reduction in the time of research while ensuring their high reliability.

Achievement of the specified technical result is provided by the proposed spectral multifunctional research complex containing a power frame and computer control equipment, monitors, digital video microscope, video microscope-endoscope, light filters, white light emitter, at least one infrared emitter and at least one ultraviolet emitter associated with said control equipment connected to said monitors and configured to process the obtained results of object examination, while said video microscopes are installed with the ability to change their vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the angle inspection of the object under study, and light filters, a white light emitter, at least one infrared emitter and at least one ultraviolet emitter are installed with the possibility I change its vertical and horizontal position, as well as change the angle of illumination of the investigated object, which is equipped with a digital capillary video microscope, removably mounted on a power frame with the ability to change its vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the viewing angle of the investigated object, while the said monitors are equipped with linear directional light emitters installed along their perimeter with the possibility of illuminating the monitor screens in a given direction along the plane of the screens, and the linear light emitters are connected with the said control equipment with the possibility of directing light fluxes of the same color or simultaneously a gamut of different colors with the ability to control luminous fluxes and their concentration, and the mentioned video microscopes are equipped with circular directional light emitters mounted on their heads and made with the possibility light emission of a range of different colors.

The invention is illustrated by drawings, which show:

fig. 1 - general diagram of the proposed complex,

fig. 2 - video microscope head with directional circular light emitters.

The spectral multifunctional research complex contains a power frame 1 (for example, a metal tube), which has the ability to change its configuration, and removably mounted on the power frame 1 computer control equipment 2, monitors 3 installed with the ability to change their position, a digital video microscope 4, a digital capillary video microscope 5, video microscope-endoscope 6, linear light emitters 7 of directional action, installed along the perimeter of monitors 3, emitters 8 - white light, at least one infrared and at least one ultraviolet, associated with control equipment made with the possibility of processing the results of the study of the object ...

In this case, all mentioned video microscopes 4-6 are installed on the frame 1 by means of retractable brackets or rods with the ability to change their vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the viewing angle of the object under study, and linear light emitters 7 of directional action are installed with the ability to illuminate the screens of monitors 3 in a given direction along the plane of the screens: top-down, bottom-top, left-to-right and right-to-left. The light emitters 7 are connected with the mentioned control equipment with the possibility of directing to the monitor screens the luminous fluxes of the same color or simultaneously a gamut of different colors with the possibility of controlling the luminous fluxes and their concentration.

Emitters 8 and light filters are installed with the ability to change their vertical and horizontal position, as well as change the angle of illumination of the object under study.

Video microscopes 4-6 are equipped with circular light emitters 9 of directional action, which are installed on their heads and are made with the possibility of light emission of a range of different colors. The use of light emitters 9 makes it possible to improve the visibility of the object under study and to carry out the first filtering from the return radiation entering the optics of video microscopes 4-6.

The second (main) filtering can be carried out when examining an object from a monitor by using directional linear light emitters 7, which provide the possibility of smooth controlled control of color fluxes and color concentration along the plane of the screen of monitors 3 and under appropriate lighting (in direction, color, concentration, etc.) etc.) of the screens of monitors 3 allow only minimal transmission of electromagnetic radiation from external light influences, from the light effects of optical devices, etc.

The above filtering makes it possible to dispense with the corresponding processing in the area of measured values, namely, digital filtering of images, carried out with the help of appropriate devices for processing signals in the control equipment, which makes it possible to simplify the signal processing process and reduce its time.

The presence of a digital capillary video microscope 5 also makes it possible to study biological material (capillaries), capillary fibers of paper, study (in digital format) MRI images of internal organs and their capillaries with the possibility of recognizing fake images, for example, after surgery.

Placing the structural elements of the complex on the load-bearing frame 1 and ensuring their mobility along the axes makes it possible to conduct research in all planes, to rotate both individual elements, including monitors 3, and the entire installation of the complex by 360 °. Also, due to the possibility of assembling / disassembling the elements, the complex is quickly collapsible and can be portable.

Equipping the complex with the mentioned video microscopes, removably mounted with the possibility of rotation, allows conducting research outside the complex, for example, large-sized objects can be examined at a distance of 2.5 meters (or more) from the complex, as well as in hard-to-reach places with the ability to carry out both contact and and remote sensing.

The presence of infrared and ultraviolet emitters, a white light emitter and light filters makes it possible to carry out studies simultaneously in different zones of the spectrum, as well as with the overlapping of the spectrum zones on top of each other.

The connection of structural elements with control equipment, made with the possibility of processing the obtained results of the study of the object, allows transferring the obtained images from one monitor to another and making overlays on each other. And in conjunction with the proposed set, placement and interconnection of structural elements, it is possible to conduct studies of objects sequentially or simultaneously in several directions, for example, top-down, sideways and bottom-up, that is, simultaneously inspect the object from different angles.

Taking into account the possibilities of conducting research in all planes, carrying out both contact and remote research, conducting research of objects at different angles of illumination simultaneously in different zones of the spectrum and with overlapping spectral zones on top of each other, the complex allows for large-scale research of a significant nomenclature of various objects, including the number of large-sized, allows to significantly expand the range of studies while simplifying the signal processing process and reducing the time of its implementation, as well as ensuring a high degree of quality and reliability of studies.

Claims (1)

A spectral multifunctional research complex containing a power frame and computer control equipment, monitors, a digital video microscope, a video microscope-endoscope, light filters, a white light emitter, at least one infrared emitter and at least one ultraviolet emitter connected with said control equipment connected to said monitors and configured to process the obtained results of the study of the object, while the said video microscopes are installed with the ability to change their vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the viewing angle of the object under study, and the light filters, white light emitter, at least one infrared emitter and at least one ultraviolet emitter are installed with the possibility of changing their vertical and horizontal position, as well as changing the angle of illumination of the investigated object, characterized in that it is equipped with a digital capillary video microscope, removably mounted on a power frame with the ability to change its vertical and horizontal position, rotate 360 ° along the vertical and horizontal axes and change the viewing angle of the investigated object, these monitors are equipped with linear directional light emitters installed along their perimeter with the ability to illuminate the monitor screens in a given direction along the plane of the screens, and the linear light emitters are connected to the said control equipment with the ability to send light fluxes of the same color or simultaneously a gamut of different colors to the monitor screens with the ability to control the light fluxes and their concentration, and the mentioned video microscopes are equipped with circular directional light emitters installed on their heads and made with the possibility of light emission of a range of different colors.

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