RU226103U1 - GAS AMMUNITION - Google Patents

Abstract

The utility model relates to weapons, namely gas ammunition. Gas ammunition consists of a housing with a fuse mounted to it. The housing contains a high pressure valve. The internal space of the case is filled with explosive gas under a pressure of 30-40 atmospheres. The body is made of cast iron. The high pressure valve is mounted in the lower part of the housing through a connection designed to hold the high pressure valve in the housing at a specified pressure of 30-40 atmospheres. At the installation site of the high-pressure valve, the wall thickness in the lower part of the housing is at least 30 mm, and on the remaining parts of the ammunition the wall thickness of the housing is at least 10 mm. The technical result consists in increasing the safety of operation of a gas projectile with explosive gas. 1 ill.

Description

The utility model relates to ammunition in which high-pressure gas is used as an explosive mixture [F42B1/00, F42B27/00, F42B30/00].

A DETONATING DEVICE WITH A NANOMETAL FILM AS A SOURCE OF DETONATION [CN214537611, publ. 10.29.2021] in which a nanometer metal film is used as a detonation source, characterized in that the device contains a heating nanotube and an additional circuit; a tube for oxygen and hydrogen is also mounted in the device.

The disadvantage of the analogue is its technical complexity, due to the presence of separate tubes for hydrogen and oxygen, as well as the presence of a nanometallic film.

Also known from the prior art is a NON-LETHAL HAND GRENADE WITH A GAS CHARGE

[RU2687654, publ. 05.15.2019], containing a sealed hollow thin-walled housing loaded with a charge of an explosive gas or vapor-gas mixture of fuel - oxidizer, a filling check valve or a pierced and self-tightening filling element, a fuse, a timer-delay triggered from the said fuse, as well as a device for initiating a gas charge, attached to said timer.

The disadvantage of the analogue is the inability of this grenade to produce a high-intensity sound effect on the target, and generally weak damaging characteristics.

The closest in technical essence is information from [https://forum.guns.ru/forummessage/117/295975.html] and [https://popgun.ru/viewtopic.php?t=235939&start=30], where it is stated about the possibility of producing a projectile in which explosive gas (O ₂ + 2H ₂ ) plays the role of an explosive projectile, while the device provides for the presence of a special chamber for burning gas, which is initially under high pressure.

The main technical problem of the prototype is the low safety of the product, due to the fact that the sources do not indicate the design features of the product that ensure reliable injection and storage of high-pressure gas inside the projectile.

The purpose of a utility model is to eliminate the shortcomings of the prototype.

The technical result is to increase the safety of operation of a gas projectile with explosive gas.

The specified technical result is achieved due to the fact that the ammunition is gas, consisting of a housing with a fuse mounted to it, a high-pressure valve is made in the housing, the internal space of the housing is filled with explosive gas under a pressure of 30-40 atm, while the housing is made of cast iron, and the valve high pressure is mounted in the lower part of the housing by means of a connection designed to hold the high pressure valve in the housing at a specified pressure of 30-40 atm, while at the installation site of the high pressure valve the wall thickness in the lower part of the housing is at least 30 mm, and in the rest In parts of the ammunition, the thickness of the body wall is at least 10 mm.

Figure 1 shows a version of the manufacture of gas ammunition - a cross-sectional view.

In fig. 1 is indicated: 1 – body; 2 – fuse; 3 – high pressure gas; 4 – high pressure valve.

The gas ammunition consists of a housing 1, to which (inside of which) an igniter 2 is mounted. In the housing 1 there is a high-pressure valve 4. The internal space of the housing 1 of the gas ammunition is filled with high-pressure gas 3, namely detonating gas, which is a mixture of hydrogen H ₂ and oxygen O ₂ with a volume ratio of these components of 2 to 1. High pressure gas 3 inside the hand grenade is pumped with a pressure of 30 to 40 atm.

In an embodiment, the high pressure valve 4 is located in the lower part of the housing 1.

In an embodiment, the gas ammunition is made in the form of a hand grenade.

In an embodiment, the gas ammunition is made with a thickening in the part of the body where the high-pressure valve 4 is mounted. The thickening is made with a thickness that allows reliable installation of the high-pressure valve 4, for example, by means of a threaded connection, to the housing 1.

In an embodiment, the gas ammunition is made in the form of a stationary explosive device.

In an embodiment, the housing 1 is made of cast iron.

Example implementation.

In an embodiment, the gas ammunition is made in the form of a hand grenade, based on the F-1 hand grenade with a cast iron body 1. Length: 120 mm, diameter 55 mm, wall thickness 10 mm. An explosive gas of 35 atm is pumped inside the grenade. In order to be able to install a threaded high-pressure valve in the lower part of the grant, a thickening of 20 mm was made in the lower part of the ammunition, so that the total wall thickness in the lower part near the high-pressure valve 4 was 30 mm.

Gas ammunition is used as follows.

In preparation for work, high-pressure gas 3, namely detonating gas, is pumped into housing 1 with mounted igniter 2 through high-pressure valve 4 until the pressure on the inner walls of the housing is about 30-40 atm.

When used, thanks to fuse 2, it comes into contact with a high-pressure gas flame 3, during which an explosion occurs and a large amount of heat is released with a steam temperature of up to 2800 ° C, creating an explosion sound of 140-190 dB.

The declared technical result - increasing the operational safety of a projectile with explosive gas - is achieved due to the fact that the design of the product includes a high-pressure valve 4, which allows the gas to be safely pumped at a high fission, without the risk of its ignition. Also, in the embodiment of the device, in the wall in which the high-pressure valve 4 is mounted, an additional thickening is made, allowing for reliable installation. In particular, it has been experimentally established that in order to withstand the specified pressure and ensure the possibility of reliable installation of the high-pressure valve 4, a wall thickness of at least 30 mm is required (on other parts of the ammunition - at least 10 mm). Also, the stated technical result is achieved due to the fact that the high-pressure valve 4 is mounted in the lower part of the housing 1, which reduces the likelihood of accidentally touching the product from the side when pumping gas, which also affects the achievement of the stated technical result.

The specified range of possible gas pressures inside housing 1 is justified by the fact that when the gas pressure is less than 30 atm, the device is not capable of guaranteed performance of its functions in accordance with its intended purpose, so, due to the low division value, a guaranteed impact on the target with sound intensity is not provided at 140 dB. The use of a pressure of more than 40 atm does not allow achieving the stated technical result, due to the unsafe process of gas injection and storage of ammunition - without making additional significant structural changes to the product (reinforcement of walls, modification of the fuse, use of special storage rooms, etc.) and gas injection technologies. The specified range was obtained experimentally, based on statistical analysis, based on the results of a study of ammunition made on the basis of the F-1 grenade.

An example of achieving a technical result.

In 2023, the applicant produced a pilot series of gas ammunition (1,000 pieces) and conducted studies of their effectiveness and reliability. Research was carried out on the basis of a modified F-1 grenade with a reinforced lower wall. The research results revealed the following:

at pressure values less than 30 atm, the effectiveness of the ammunition (correspondence of the values of the characteristics of the damaging factors to the calculated values) is less than 80%, which does not allow the use of ammunition within the specified limits of the pressure range;

when the pressure is more than 40 atm, there is a possibility of gas leakage due to excess pressure (the probability is 2%), which does not allow achieving the stated technical result;

at pressure values within the specified limits, not a single case of gas leakage or projectile deformation was recorded - which confirms the declared technical result;

The main advantages of this type of projectile, in addition to high destructive properties, are the formation of a high value of the explosion sound (at least 140 dB), as well as the absence of chemical traces by which the type of ammunition used could be determined.

The declared solution is a single product and is manufactured at the manufacturer through assembly operations. All parts of the product are connected to each other mechanically.

Claims (1)

Gas ammunition, consisting of a housing with an igniter mounted to it, a high-pressure valve is made in the housing, the internal space of the housing is filled with explosive gas under a pressure of 30-40 atm, while the housing is made of cast iron, and the high-pressure valve is mounted in the lower part of the housing by means of a connection , designed to hold the high-pressure valve in the housing at a specified pressure of 30-40 atm, while at the site of installation of the high-pressure valve the wall thickness in the lower part of the housing is at least 30 mm, and on the remaining parts of the ammunition the wall thickness of the housing is at least 10 mm.