RU2604747C1 - Device and method for detection of traces of ridge pattern, device for application of tracer substance on surface if observing papillary pattern - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to forensic and criminalistic medicine and can be used for detection of traces of organic origin, in particular traces of fingers and palms. Mean in form of aerosol is proposed for detection of traces of ridge pattern. Agent is solution of chelate ions of rare-earth elements with β-diketones in weakly polar organic solvent. Method of detecting traces of the ridge pattern is also described, > including aerosol application of solution of said chelate on surface with sweat-fat imprints and exposure to UV radiation, for example at wave length of 365 or 254 nm. Device for application of tracer substance is also described representing aerosol bottle with dissolved said indicator substance and gas-repellent.

EFFECT: invention provides universal device for detecting imprints on smooth and porous surfaces while reducing detection range, reduced time of detection and fixation of imprints in field conditions.

8 cl, 1 ex

Description

The invention relates to medicine, namely to the field of forensic and forensic medicine, and can be used to identify traces of organic origin, in particular fingerprints and palms.

To date, a significant amount of tools is known to identify papillary patterns on various surfaces (V. Schelkov. Modern methods for detecting hand marks. Www.phreaking.ru/showpage.php?pageid=53599). These include fingerprint powders, fluorescent powders, iodine method, DFO method, the use of silver nitrate, a physical developer, finely divided reagent (SPR), cyanoacrylates, black amide, Scotch adhesive tape powder, fluorescent preparations.

Each of these tools has a fairly limited scope.

Known (BY, patent 16898, publ. 02.28.2013) a fluorescent developer of an orange-yellow glow for detecting fingerprints containing a pigment fluorescent orange-yellow, talc, isopropanol, sodium oleate and water.

It is known (http://konspektiruem.ru/news/Otpechatki-palcev-teper-snimut-i-obnaruzhat-prakticheski-na-ljuboi-poverhnosti/) to use an aerosol containing iodine-benzoflavone and ruthenium tetroxide as a way to remove fingerprints from porous surfaces. Aerosols are more easily applied to coarse surfaces and, in addition, they can quickly cover large areas of intended surfaces in order to detect the presence of fingerprints.

The method is suitable only for dry surfaces.

There is a known (RU, patent 2428922, publ. September 20, 2011) method for detecting hand traces, comprising treating hand traces with a directed reagent flow, by means of which traces become visible, fixation and withdrawal, moreover, an ozone-air mixture with an ozone concentration of 30- is used as a reagent 50 mg / m ³ , the flow of which treats handprints on a dry surface for 10-30 s, and on a wet or wet surface - no more than 3 minutes.

The disadvantage of this method should be recognized the impossibility of preliminary preparation of the reagent (ozone-air mixture) with the necessary ozone content, since ozone is a chemically unstable gas and quickly passes into oxygen. Ozone generation at the point of consumption requires either an electric current network to turn on the portable ozone generator or the use of sufficiently powerful batteries.

Known (RU, application 93021124, publ. 09/07/1995) a method for producing a luminescent fingerprint powder based on ZnS, activated silver.

The method of use and application possibilities are not disclosed.

The closest analogue of the developed technical solution can be recognized (www.http: //crimlib.info) a solution of an organic indicator substance - ninhydrin in a weakly polar organic solvent, applied to the surface with fingerprints using aerosol spraying.

The following features should be recognized as a disadvantage of the closest analogue: ninhydrin decomposes relatively easily during storage and its quality must be periodically checked on control traces; traces found on dark and colored surfaces are poorly distinguishable; the method of using ninhydrin is designed to detect no more than 60-80% of hand traces on the object and is not suitable for wetted objects, it quickly loses activity, so it must be stored in a cool, dry place.

The technical problem solved by the developed technical solution consists in expanding the range of means for detecting fingerprints and palms.

The technical result achieved by the implementation of the developed technical solution consists in creating a universal means of detecting fingerprints on both smooth and porous surfaces, lowering the detection limits, simplifying detection technology, as well as reducing the time for detecting and fixing fingerprints in the field.

To achieve the indicated technical result, it is proposed to use the developed means for detecting traces of a papillary pattern, which is a solution of an organic indicator substance in a weakly polar organic solvent, the indicator substance being a chelate complex of rare-earth ions with β-diketones, applied in the form of an aerosol.

The developed technical solution is based on the interaction of the components of the organic phosphor with the components of human potogiore secretions.

During the development of this technical solution, a class of organic unpainted phosphors that could not be used as an indicator has not been identified.

For ease of use, it is desirable to use unpainted organic luminescent compounds applied in the form of an aerosol.

Chelate complexes of rare earth ions with β-diketones can be used for aerosol application on smooth surfaces as well as on porous surfaces.

As a solvent, lower alcohol or ketones with the number of carbon atoms not exceeding 5, as well as petroleum ether or ethers and esters with the number of carbon atoms not exceeding 5, can be used.

In a preferred embodiment, the developed tool contains up to 50% of the mass. indicator substance.

To achieve the specified technical result, it is proposed to use the developed method for identifying traces of the papillary pattern. According to the developed method, an aerosol solution of a chelate complex of rare-earth ions with β-diketones is applied to the surface with sweat marks.

Although in the general case, the use of other application options is possible.

UV radiation with a wavelength of 365 or 254 nm is usually used to detect papillary patterns.

To generate such radiation, appropriate LEDs or “white” sources with appropriate filters can be used.

Fixation of the identified papillary patterns is carried out in any known manner.

To achieve the specified technical result, it is also proposed to use the developed means of applying an indicator substance to the surface when revealing a papillary pattern. The developed product is an aerosol can with a dissolved organic indicator substance and a repellent gas, and a chelate complex of rare-earth element ions with β-diketones dissolved in a weakly polar organic solvent is used as an indicator substance.

As the repellent gas, substituted saturated hydrocarbons, which are usually used in aerosol spraying solutions, can be used.

The developed technical solution is illustrated by the attached implementation example.

In the manufacture of aerosol packaging "Sled-A", designed to detect fingerprints on smooth and porous surfaces, used organic

phosphor - europium β-diketone in an amount of 15 wt%, dissolved in isopropyl alcohol in an amount of 85 wt%. The solution was placed in an aerosol can and a repellent gas was introduced (a mixture of R1 freon and R128B1 bromocarbon in equal amounts).

Aerosol was sprayed from a distance of 0.3-0.4 m on the test surface (smooth or porous). To detect fingerprints, the surface with the applied substance UV light with a wavelength of 365 nm was illuminated using an LED source. Traces are detected by luminescence in the red region of the spectrum.

The use of the developed technical solution provides the creation of a universal means of detecting fingerprints on both smooth and porous surfaces, lowering the detection limits, simplifying detection technology, as well as reducing the time of detection and fixation of fingerprints in the field.

Claims (8)

1. A means for detecting traces of a papillary pattern, which is a solution of an organic indicator substance in a weakly polar organic solvent, characterized in that the indicator substance is a chelate complex of rare earth ions with β-diketones, applied in the form of an aerosol. 2. The tool according to claim 1, characterized in that lower alcohol is used as a solvent. 3. The tool according to claim 1, characterized in that the lower ketone is used as a solvent. 4. The tool according to p. 1, characterized in that the content of the indicator substance is up to 50 wt.%. 5. A method for detecting traces of a papillary pattern, including applying a solution of an organic indicator substance in a weakly polar organic solvent to a surface with poignal prints, followed by revealing a papillary pattern, characterized in that an aerosol solution of a chelate complex of rare earth ions with β-diketones is applied, and detection is carried out by lighting the surface with UV radiation. 6. The method according to p. 5, characterized in that they use UV radiation with a wavelength of 365 or 254 nm. 7. A means of applying an indicator substance to the surface when a papillary pattern is detected, which is an aerosol can with a dissolved organic indicator substance and a repellent gas, characterized in that a chelate complex of rare earth ions with β-diketones dissolved in a weakly polar organic is used as an indicator substance solvent. 8. The tool according to p. 7, characterized in that the substituted gas hydrocarbons are used as the repellent gas.