RU180103U1 - PORTABLE MULTI-FUNCTIONAL DEVICE FOR INSTALLING GROUP ACCESSORIES OF PAINTS FOR COLOR TONE, SATURATION AND BRIGHTNESS OF COLOR IN DIGITAL EQUIVALENT - Google Patents

Abstract

The utility model relates to the field of color measurement and relates to a portable multifunctional device for establishing the group affiliation of paints and coatings by color tone, color saturation and brightness in digital terms. The device contains a cylindrical body, control buttons, a battery, a charger connector, a computer, a microcontroller, infrared, ultraviolet and visible light emitting diodes, a touch display, microUSB port, a Bluetooth transceiver, a light source emission regulator, and a GSM transceiver. In addition, the device contains a video camera, autofocus, infrared autofocus LED, nanosucker and magnetic insert. A computer provides receiving images from a video camera, processing the resulting image and obtaining a numerical value of the reflected radiation wavelength in the form of a color tone, color saturation and brightness in digital terms, generating the results and displaying them on a touch screen and / or transmission. The technical result consists in increasing the accuracy and stability of the measurement results. 3 ill.

Description

The utility model relates to devices for establishing the group affiliation of coatings, which can be used in forensics during preliminary forensic investigation of objects from the scene with the aim of solving crimes in hot pursuit during search activities in transport, roads, airports and is an effective means of combating with traffic offenders, with criminals who left the scene of a traffic accident (accident), etc.

The objects of the forensic examination of paints and coatings in the investigation of accidents are the paintwork of a specifically painted vehicle (TS) and parts that are supposedly separated from this coating. Most often this happens when, when examining a place of an accident, peeled parts of paint coatings (LCP) of parts, mechanisms, units of a particular vehicle are found in a collision or collision with an obstacle or part of a paint coating formed from transfer from one object to another upon contact (contact interaction) their surfaces.

The main tasks of this type of examination are:

- detection of microparticles of paints and varnishes and coatings (coatings and coatings) located both on the surface of moving carrier objects (vehicles, clothes, shoes) and on the surface of non-moving objects (terrain);

- determination of the nature, composition, purpose of coatings and coatings;

- determination of the common generic and group affiliation of the compared paintwork materials and P;

- identification of a specifically painted object in separate parts of the paintwork or in traces;

- establishing the source of origin.

- Establishment of the fact and mechanism of contact interaction of the investigated vehicle objects with pedestrian clothing, two vehicles on mutually transitive substances, which include paintwork materials.

To obtain the desired color or shade, materials are tinted (stained). To do this, use special tinting dyes that allow you to achieve the desired shade. You can tint the paint manually directly at the facility or in the paint shop. However, firstly, it is very difficult to obtain the desired shade, and secondly, it will practically not be possible to repeat it, if necessary.

Therefore, the modern way is to use special equipment (tinting machines), which allow you to get not only any amount of paint of the desired color, but also repeat it if necessary. To select the right shade, almost all the world's leading paint manufacturers have their own tinting cards, where each shade has its own number.

Acrylic paints are beautifully tinted with up to 15,000 different colors and shades.

It should be borne in mind that different manufacturers have their own tinting systems, and the color shades of different systems may not match.

When painting the whole car, it is usually enough to make a computer selection of paint based on the color code number of the painted car. When painting individual elements of the car body, it becomes necessary to select an enamel color that is as close as possible in brightness, color tone and saturation to the selected color. Spies Hecker's computer paint laboratory provides the best quality in this area. ^one

Selection of paint for a car is a complex process of obtaining the desired shade by mixing colors in a certain proportion. The color palette of enamels is very wide. Therefore, when choosing a paint, it is very important to achieve 100% matching of the factory color and the color of the painted part.

When painting individual body parts, it becomes necessary to select the color of enamel, as close as possible in brightness, saturation to the selected color. The car has a car color code.

For quick color matching, PPY has developed a number of tools that make color identification and color matching easy. All these tools are used by the Smart Fix Center for Aesthetics. They have a complete collection of all color names, codes, years of application of colors on all major brands of automobiles in the world.

Of great importance in accelerating the process of selecting paint for vehicles are the individual qualities of the employee (color sensitivity, professional skills). ²

Thus, we note the main thing - what is the purpose of the proposed "Device":

1. for the forensic establishment of group affiliation LKM and P;

2. to determine the color code LKM and P for vehicles, building materials, etc. (hue, saturation, and color brightness).

¹ https.//domashke/net refereti / promyshlennost-proizdstvo / referat-tipy-lakokrasochnyh-pokryti-isposoc = by-ih-identfikacii

² https://Russia-remont.ru

https://konsulavto.ru

https://smartfix.ru

In the course of the study of coatings and coatings, optical microscopy methods are applied, studies are carried out when processing with solvents, acids, alkalis and the behavior when heated and exposed to open flame is evaluated.

Microscopic studies of LKM and P reveal signs of the external and internal morphology of the objects being compared to reveal the color, transparency, thickness, uniformity of the material, single layer or multilayer, the presence of fillers, inclusions, contaminants, etc. [Mitrichev BC, Khrustalev VN, “Fundamentals of forensic research of materials, substances and products from them ”St. Petersburg: Peter, 2003, p. 591].

Portable multifunctional device for establishing the group accessory of paints and varnishes and coatings by color tone, color saturation and brightness in a digital equivalent, containing a case in the form of a cylindrical container, control buttons on / off, a battery, a connector for a charger, a computer, a microcontroller, infrared LEDs , UV and visible, touch display, microUSB port, Bluetooth transceiver (v. 3), protective cover, handle for protractor sockets, a regulator of the radiation intensity of standard light sources, a GSM transceiver, and also additionally contains a video camera, autofocus, autofocus infrared LED, a protective cover for the touch screen, nozzle, nanosucker, magnetic insert and a computer program that provides operation of all systems: image acquisition from video cameras, processing this image and obtaining the numerical value of the wavelength of λ-radiation reflected from LMC and P: color tone, color saturation and brightness in digital equivalent those forming the results, displaying them on the touch screen and / or transmission.

In world practice, as a rule, highly analytical equipment is used to detect and establish the group affiliation of polymers, including LKM and P: IR Fourier spectrometers, emission spectral and X-ray analysis methods, as well as thin-layer gas and gas-liquid chromatography, etc. .

A patent for the invention is known “A method for determining the authenticity and denomination of banknotes and a Bars banknote sorting machine”, No. 2158443 G07D 7/00, G06K 9/00, taken by us as an analogue. According to this patent, a method for determining the authenticity and denomination of banknotes is that the banknote is illuminated alternately by visible, infrared and ultraviolet light, and a decision is made on the authenticity and dignity of the banknote by scanning the banknote under investigation with a scanning device, after which complete images of the banknotes are received from their color net gamut and transmit to the comparator, which pre-installed the pattern recognition program.

The disadvantages of this invention is the inability to assess the intensity of fluorescence, the degree of color, saturation and brightness of the color in digital equivalent i.e. it is impossible to obtain a digital code of colors for paintwork and paintwork and the impossibility of using it when inspecting the scene of an accident after an accident, which does not allow for the establishment of a group of paintwork materials and paintwork, the results of which could help in the investigation and disclosure of crimes in hot pursuit.

The well-known "Autonomous portable device for identifying polymer materials with the ability to assess their color, degree of fluorescence, saturation and brightness of the products" Utility Model (PM) No. 171169 publ. 05/23/2017 Bull. No. 15. IPC G01N 21/64, C09K 31/22).

The specified PM is taken by us as an analog. The disadvantages are: the use of revolvers for the IR and UV region, the large size of the device compared to the claimed device, the presence of cells and cameras. This device can be used for polymers containing fluorescent additives.

The closest technical solution is PM No. 171154 publ. 05/23/2017 Bull. No. 15 G01N 31/22, G01N 21/61, which we took as a prototype, "Portable multifunctional device for detecting and identifying traces of a polymer nature by fluorescence intensity."

"Device" in accordance with the prototype is intended to detect and establish the group membership of traces of polymer nature containing fluorescent additives and establish the intensity of fluorescence.

The prototype contains an ultraviolet radiation source, a photosensor, a Bluetooth transceiver (v. 3), a battery, a microcontroller, a computer, a touch screen, microUSB port, a magnetic insert, as well as a protective cover and a handle for transportation.

The disadvantages of the prototype is the inability to obtain a numerical value of the wavelength of λ-radiation reflected from LKM and P: color tone, color saturation and brightness in digital terms and the instability of obtaining estimates of fluorescence intensity.

The technical result of the claimed PM is the creation of a “Device” that is quite simple to operate and stable in operation, devoid of the main disadvantage of the prototype — the instability of estimating the fluorescence intensity and the inability to obtain the color code of LMC and P, i.e. the inability to accurately assess the color tone, saturation and brightness of the color in numerical terms.

Thus, by making structural changes to the “Device”, the software (software) for an electro-computer (computer) solves the expert diagnostic task of comparing two samples, one of which is part of the paintwork and П obtained as a result of detection at the scene of the incident Accident with paintwork and paint obtained as a result of detection of the alleged vehicle (TS), with higher accuracy and stability of measurement.

The technical result and the solution of the task are achieved by the proposed “Device” including: a case in the form of a cylindrical container, control buttons on / off, a battery, a connector for a charger, a computer, a microcontroller, LEDs for infrared, ultraviolet and visible radiation, a touch display, microUSB port , Bluetooth transceiver (v. 3), protective cover, transport handle, radiation intensity regulator for regular light sources, transceiver your GSM, which according to the proposed PM additionally contains a video camera, autofocus, infrared autofocus LED, a protective cover for the touch screen, a nozzle, nanosuckers, a magnetic insert and a computer program that ensures the operation of all systems: receiving an image from a video camera, processing this image and receiving numerical the values of the wavelength of λ-radiation reflected from LKM and P: color tone, color saturation and brightness in digital terms, the formation of the results, their output to the touch display and / or transmission.

The “Device” described above allows achieving such a technical result as the simplicity and stability of the “Device”, which increases the accuracy of measuring paintwork materials and colors by color tone, color saturation and brightness in digital equivalent, i.e. of obtaining the numerical value of the wavelength of λ-radiation reflected from LMC and P.

Let's give an idea of the HSB and HSL color system. This system is based on hardware limitations. In the HSB system, the color description is presented in the form of hue, saturation and brightness. Another HSL system sets hue, saturation, and light. Tone is a specific color cast. Color saturation characterizes its relative intensity or frequency. Brightness or lightness indicates the amount of black tint added to the color, which makes it darker. The HSB system is in good agreement with the human color perception model, that is, it is the equivalent of the wavelength of light. Saturation is the intensity of the wave, and brightness is the total amount of light. The disadvantages of this system is that to work on a personal computer it must be converted to the RGB system, and for four-cent printing in the CMYK system.

RGB and CMYK color systems are subject to hardware restrictions (computer monitor for RGB and printing inks for CMYK). As already noted, the HSB color model is most convenient for humans, because it is in good agreement with the model of color perception by man.

Systems (RGB, CMYK, HSL): in different cases, different color systems are used depending on how the color is produced. If we use light sources whose dominant system is RGB (red / green / blue - red / green / blue).

For colors that are obtained by mixing paints, pigments or inks on fabric, paper, canvas, or other materials, the CMYK system is used as the color model (cyan / magenta / yellow / key color, kontur, black - cyan / magenta / yellow / the black).

Another popular color system is HSL (hue / saturation / lightness - hue / saturation / intensity).

This system has several options, where instead of saturation chroma (chroma), luminance (luminance) along with brightness (value) (HSV / HLV) are used. It is this system that corresponds to how the human eye sees color. ³

³ http: webmascon.com/topics/colors/9a.asp Date of access: 12/28/2016. Dictionary of color theorems-color theory-webmascon.

Tone is a specific shade of color. Saturation characterizes its intensity, or purity. Brightness depends on the admixture of black paint added to this color.

HSB computer models are: Hue, Saturation, and Brightness.

The HSB model is convenient to use when creating your own image, and at the end of the work, the image can be converted to an RGB model.

The RGB color model is used for the emitted color, i.e. when preparing screen documents, any color can be represented as a combination of three primary colors: red (red), green (green) and blue (blue). These colors are called color components.

When encoding the color of an image point using three bytes, the first byte encodes the red component, the second green, the third blue, the larger the byte of the color component, the brighter this color. When applying one component to another, the brightness of the total color only increases. Therefore, the RGB color model used for the emitted color is called additive.

Tone (hue) (other translations: actually color, paint, shade, tone): this is the word we mean when we ask the question "What color is it?". When we talk about red, yellow, green, and blue, we mean “tone / hue”. Different tones are created by light with different wavelengths. Thus, this aspect of color is usually quite easy to recognize.

Saturation: Due to chromaticity, saturation tells us how color looks in different lighting conditions. This color property is also called intensity.

Brightness (Value): when we say that the color is “dark” or “light”, we mean its brightness. This property tells us how light or dark is, in the sense of how close it is to white.

The effect of the nano suction cup is somewhat reminiscent of the principle of operation of the adhesive tape “Scotch” or Velcro, but is enhanced by additional advantages (Suction cups POS accessories: Instore catalog - http: //www.instore.ra/catalogue.php? Cat_id = 3 from 14.11 .2016).

The utility model is illustrated by drawings, where in FIG. 1, the appearance of the “Device” is shown, in FIG. 2 The nozzle diagram (sectional view), and in FIG. 3. The block diagram of the interaction of the “Device” elements.

Device-1 consists of: housing-4, nozzles-11, UV LEDs-3, visible light-emitting diodes-7 LEDs, IR LEDs-21, video cameras-2, touch-screen-14, computer-13, transceiver device operating via Bluetooth (v. 3) -8, battery-6, radiation intensity regulator for regular light sources-10, microUSB port-12, handles for transporting the device-19, protective cover-8, microcontroller-5, on / off-15 buttons, transceiver GSM-9 devices, magnetic insert-16, nanosucker-17, charger connector-18, protective cover-20, IR vetodiod AF-22 AF-24 and protective cover touch screen 23.

All elements of the "Device" -1 are in structurally functional unity with each other. The structural unity of the elements of the claimed "Device" -1 is ensured by the fact that they are connected to each other.

When the on / off-15 button is set to the on position, the “Device” -1 is provided with electric power by the battery-6, after which the computer-13 puts the camcorder-2, IR-LEDs-21, UV-LEDs-3 and visible light-emitting diodes into operating mode -7, regulator of radiation intensity of regular light sources-10, touch-screen-14, microcontroller-5, transceiver GSM-9, transceiver using Bluetooth (v. 3) -8 and microUSB port-12, while nozzle-11 provides a constant optical distance of the video camera-2 to the object and investigations. For the transceiver of the necessary information or work to optimize the operation of the computer, the “Device” -1 is equipped with a microUSB port-12, a transceiver device operating on the Bluetooth protocol (v. 3) -8 and a GSM-9 transceiver device.

When the “Device” direction is -1 with the optimal radiation intensity by standard light sources-3,7,21 to the objects of research LKM and P (the choice of the lighting source depends on the individual characteristics of the light perception of the studied object), the video camera-2 captures the reflected radiation, which in the form of a signal It is transferred to microcontroller-5, where the received signal is converted, from where it is sent to the computer-13, which, using software, implements image formation and its evaluation, and upon completion it displays the results on touch display-14, on the basis of which we can compare the results of the samples already available in the “Device” or after some time upon receipt of a comparative sample (the proposed vehicle with paintwork materials and P).

To prevent a non-sharp (blurry) image from camcorder-2, autofocus-24 is additionally installed, which uses the IR autofocus-22 LED to determine the distance to the object under study and automatically adjusts camcorder-2 so that the image becomes sharp.

Using the software, it is possible to work with the transceiver device using the Bluetooth protocol (v. 3.) - 8, with the help of which previously saved images received from the video camera-2 of the claimed “Device” -1 can be transferred as to the working computer of the person conducting research, and on any other device supporting a transceiver device operating on the Bluetooth v.3.0 protocol, or using a GSM-9 transceiver device, send it to someone by e-mail or by wire through microUSB port-12.

Management of the "Device" -1 is provided by a computer-13, which displays images from the video camera-2 on the touch display-14, with which the control of the "Device" -1 is also provided, which is possible using software installed on the "Device" -1.

All elements of the "Device" -1 are in constructive and functional unity with each other. The constructive unity of the elements of the claimed "Device" -1 is ensured by the fact that they are connected to each other and placed in the housing of the device-4.

For convenience and improving the accuracy of fixation of the studied objects, the nozzle-11 is equipped with a magnetic insert-16 and nano-suction cups-17, which ensure the immobility of the “Device” -1 when fixing the studied samples.

The protective cover-20, made of metal, protects regular light sources-3,7,21 and video camera-2 from mechanical damage. Using a magnetic insert-16 installed in the nozzle-11 is held on the "Device" -1, which ensures protection. The protective cover of the touch display-23, made of metal, protects the touch display-14 from mechanical damage.

For convenient transportation of the "Device" -1, equipped with a handle for transportation-19.

In order to ensure long-term operation, “Device-1 is equipped with a connector for connecting the charger-18.

Technical data of the elements of the "Device":

1. The battery is 9 volts of the type “crown” (6F22,9b) capacity of 250 mA / h, voltage 8.4 V.

2. Micro USB port.

3. Case "Devices" - material: aluminum;

4. UV radiation diodes - Nichia NCSU033B, 365 nm, 3 W, 500 mW;

5. IR radiation diodes - AL 119 V, 945 nm, 2 W, 300 mW;

6. Diodes of visible light - Piranha Super Flux Leds with a current of 1600 mcd.

7. The number of diode lamps: IR radiation - 2 pcs., UV radiation - 2 pcs. and diode lamps of visible light - 2 pcs.;

8. Camcorder - Sony Exmor RS IMX230 - 1 / 2.4 inch 21-megapixel sensor.

9. The microcontroller is a digital signal processor.

10. GSM transceiver - Raspberry PI SIM800 GSM / GPRS Add-on V2.0 module.

11. Bluetooth transceiver - НМ-10 сс2541 4.0 BLE iBeacon bluetooth.

The proposed utility model was tested in the laboratory of the Interior Ministry of the Russian Federation. Dozens of samples of paints and varnishes and coatings were investigated. Digital values are obtained for the hue, saturation and brightness of the color, i.e. digital color codes of coatings and coatings were obtained: samples under study with samples for comparison, the values of which are given in table 1.

After starting the program, the aim is aimed at the necessary point of the object under investigation through the video camera’s screen in real time, we see the name of this color and the designation in the color coordinates RGB or HSV. Any color can be saved in the user's library, which is located in the next tab.

Claims (1)

Portable multifunctional device for establishing the group accessory of paints and varnishes and coatings by color tone, color saturation and brightness in a digital equivalent, containing a case in the form of a cylindrical container, control buttons on / off, a battery, a connector for a charger, a computer, a microcontroller, infrared LEDs , ultraviolet and visible radiation, touch display, microUSB port, Bluetooth transceiver (v.3), protective cover, handle for t inspection, a regulator of the radiation intensity of standard light sources, a GSM transceiver, which additionally contains a video camera, autofocus, infrared autofocus LED, a protective cover for the touch screen, nozzle, nanosucker, magnetic insert and a computer program that ensures the operation of all systems: images from a video camera, processing this image and obtaining a numerical value of the wavelength λ of the radiation reflected from LMC and P: color tone, saturation and brightness of color eta in digital terms, the formation of the results, their output to the touch screen and / or transmission.

Images