RU2644183C2 - Identification document - Google Patents

Abstract

FIELD: gas-dynamic identification.

SUBSTANCE: invention relates to the field of gas-dynamic identification and can be used to form identification marks on paper, plastic, for example on bank cards, banknotes, bills, receipts, diplomatic correspondence and other documents of particular importance. Cartridge contains a capsule, a sleeve with a collar, compressed with a "star", partially filled with gunpowder. Sleeve is additionally filled with a polydisperse set of solid nanoparticles.

EFFECT: technical result is to ensure that the cartridge is patched with identification marks on the target object.

4 cl, 2 dwg

Description

The invention relates to the field of gas-dynamic identification and can be intended for the formation of identification marks on paper, plastic, for example on bank cards, banknotes, bills, receipts, diplomatic correspondence and other documents of special importance.

Known utility model [1], performing the function of a marker. However, it is very complex and can be used for marking and subsequent identification of large objects and cannot be used to introduce a set of nanoparticles into an identifiable part.

A known method of gas-dynamic identification [2], in which small solid particles are placed in a turbulent gas stream for subsequent incorporation into relatively soft materials, such as paper or plastics.

However, this method is applicable for relatively large particles, requires the use of powerful compressors. It is of little use for identification of relatively small consignments.

As an analogue, you can take a blank cartridge [3] containing a capsule, a sleeve with a barrel, compressed by an "asterisk", partially filled with gunpowder.

However, such a cartridge is not suitable for identification purposes, since the powder gases entering the identification tag are not suitable for long-term storage of information.

As a prototype, you can choose a blank cartridge [4] containing a capsule, a sleeve with a barrel, compressed by an "asterisk", partially filled with gunpowder. However, for the same reason, it is also not suitable for identification purposes.

Moreover, cartridges containing even the smallest fraction are not suitable for identification technologies.

The newly proposed cartridge contains a capsule, a sleeve with a barrel, compressed by an "asterisk", partially filled with gunpowder.

A distinctive feature of the newly proposed cartridge can be recognized as the fact that the sleeve is additionally filled with a polydisperse set of solid nanoparticles and the fact that the muzzle, compressed by an "asterisk", is covered with an adhesive solution.

Other distinguishing features include the fact that the polydisperse composition of particles 6, consisting of particles from 50 to 100 nm in size, is supplemented by larger particles 7 from 1000 to 2000 nm in size, which serve as reference points on a gas-dynamic identification mark 8 containing a digital code 9 and information grid 10.

The cartridge also differs in that the mass fraction of larger particles 7 does not exceed 10 percent of the mass of the polydisperse set of nanoparticles 6.

Figure 1 schematically shows the proposed identification cartridge. It contains a capsule 1, a sleeve 2 with a gun 3, compressed by an “asterisk” 4, partially filled with gunpowder 5. A feature of the proposed cartridge is that the sleeve 2 is additionally filled with a polydispersed set of solid nanoparticles 6. The gun 3, compressed by an “asterisk” 4, is coated with glue solution 7.

Other features include the fact that the polydisperse composition of particles 6, consisting of particles from 50 to 100 nm in size, is supplemented by larger particles 8 from 1000 to 2000 nm in size, which serve as reference points on a gas-dynamic identification mark 9 containing a digital code 10 and information grid 11. Moreover, the mass fraction of larger particles does not exceed ten percent of the mass of the polydisperse set of nanoparticles 6.

When fired by such a cartridge from the barrel of a rifle 12, machine gun, etc. a supersonic jet breaks out containing a polydisperse set of solid nanoparticles 6, which are embedded in a paper, plastic identification mark 9 (Fig. 2) Identification mark 9 can be made of soft metal.

The distance between the barrel and the future identification mark 9 should be minimal, since nanoparticles 6 quickly lose their speed when moving in the air. Weapon requirements are minimal, it can be weapons-produced waste that has not passed acceptance, etc. The presence of an information grid 11 and larger particles 8 ranging in size from 1000 to 2000 nm at the same time serve as reference points. Identification mark 9 is scanned and entered into the database.

The identification process can be carried out in two stages. At the first stage, after combining the information grids 11, only the reference points from the ingress of larger particles 8 are compared at the object and in the database. Such an approach will not require very accurate scanning systems. In the case of special importance, the entire polydisperse set of nanoparticles 6 can be involved in the identification process.

Information sources

1. Utility model No. 66506 for “Bullet marker”.

2. Patent MD No. 3389 on the method of gas-dynamic identification.

3. Idle cartridge. Patent RU No. 2044253.

4. Idle cartridge. Patent RU No. 2265186.

Claims (4)

1. An identification cartridge containing a capsule, a sleeve with a barrel, compressed by an “asterisk”, partially filled with gunpowder, characterized in that the sleeve is additionally filled with a polydisperse set of solid nanoparticles. 2. The identification cartridge according to claim 1, characterized in that the dulce squeezed by an "asterisk" is covered with an adhesive solution. 3. The identification cartridge according to claim 1, characterized in that the polydisperse composition of the particles, consisting of particles from 50 to 100 nm in size, is supplemented with larger particles from 1000 to 2000 nm in size, serving as reference points on a gas-dynamic identification tag containing a digital code and information grid. 4. The identification cartridge according to claim 3, characterized in that the mass fraction of larger particles does not exceed 10% of the mass of the polydisperse set of nanoparticles.

Images