RU2074349C1 - Method of cleaning of firearm bore, parts and mechanisms - Google Patents

Abstract

FIELD: cleaning of firearm. SUBSTANCE: the method consists in cleaning and application of protective layer, with ultradispersing polytetrafluoroethylene powder used for the purpose. If ultradispersing polytetrafluoroethylene powder is applied onto mechanisms and sections that are not in a frictional engagement, a layer of neutral grease is applied over this powder. EFFECT: enhanced quality. 2 cl

Description

 The invention relates to firearms, and in particular to methods of lubrication.

 A known method of lubricating small arms, including mechanical cleaning, cleaning with alkaline lubricant, cleaning with a barrel cleaning solution (PSA) based on potassium dichromate and ammonium carbonate, wiping off a solution of RFS and applying a liquid layer of gun oil. (Manuals on small business. Military Publishing House of the Ministry of Defense of the USSR, 1973, p. 178 181).

 The disadvantage of this method is that when a bullet passes through the barrel, combustion products of a thin layer of liquid neutral oil are formed. In the interaction of combustion products with air moisture, intense oxidation of the metal of the barrel channel occurs, which requires constant cleaning of the barrel from combustion products to prevent corrosion. In addition, due to the roughness of the barrel during the passage of the projectile along the channel, it deviates from the optimal trajectory, which reduces its initial speed and affects the accuracy of the battle.

 Use in the method of the operation of cleaning with an alkaline solution containing potassium dichromate and ammonium carbonate makes the method inconvenient to implement, since this solution is not only toxic, but also convenient in storage and transportation. Its shelf life does not exceed 7 days.

 The objective of the invention is to improve the combat and operational characteristics of firearms.

 The problem is solved in that in the method of lubricating the bore, parts and mechanisms of firearms, including cleaning and applying a protective layer, ultrafine polytetrafluoroethylene powder (UPIFE) is used as a protective layer. And in order to better protect the mechanisms and parts in friction, a thin layer of neutral oil is applied over a layer of UPTFE.

 Thus, the proposed method differs from the prototype using UPTFE as a protective layer.

 In technical solutions for this purpose, this feature does not affect.

 The set of features characterizing the invention, the method tells a new quality that is not inherent in its individual features, namely the improvement of combat characteristics and operational properties. The use of a protective layer of UPTFE in combination with other signs ensures the tightness of the barrel bore, reducing roughness, which in turn leads to an increase in projectile energy, and therefore to an increase in the initial speed and range. In addition, it is known that polytetrafluoroethylene has the lowest known sliding coefficient of friction.

 Until now, it was believed that a low coefficient of friction equal to 0.05 is valid only at low interaction speeds and remains so if the interaction rate of friction pairs does not exceed 0.66 m / min. According to studies at high speeds of interaction of friction pairs of 100 to 1000 m / s, contrary to theory, there is no sharp increase in the coefficient of friction, it remains virtually unchanged, which allows for such high speeds to exclude the interaction between the metal surface of the projectile and the metal of the barrel channel, which leads to a decrease in deviation projectile from the trajectory of movement and provides an increase in accuracy of battle.

 In addition, when the barrel interacts with friction pairs, the projectile-channel of the barrel at speeds of more than 100 m / s, the electrostatic response in the contact spot leads to the appearance of selective transfer, redistributing UPTFE over the surface to the zone with the maximum coefficient of friction, which in turn leads to the restoration of caliber , tightness of the bore, reducing the roughness of its surface.

 The described phenomenon, known for UPTFE, leads to an improvement in the energy of the projectile and, consequently, to an increase in the initial speed and range.

 In the case when the ultrafine powder is applied to the mechanisms and areas located by friction, it is advisable to apply a layer of neutral lubricant on top of this layer due to insufficient adhesion of UPTFE and metal of the mechanisms that are in friction interaction.

 The test was conducted from January 1991 to April 1993. The testing area is the testing ground of the Primorsky Territory.

 The purpose of the tests is to check the influence of the new lubrication method on the combat and operational characteristics of the K44-14 carbine of 1944 release that was in use. The method of comparison was used to check the corrosion resistance of the barrel bore during regular cleaning and lubrication in the traditional way described in the prototype and proposed as an invention. In the traditional method, the passage of a bullet along the rope of a barrel in the presence of a thin layer of oil was accompanied by the formation of combustion products of such a layer. During the interaction of such a layer with air moisture, intense oxidation of the metal of the barrel channel took place.

 The proposed method produced lubrication as follows.

 The bore was thoroughly cleaned of combustion products (formed by lubrication in a known manner) and of oil residues.

 After that, the barrel bore was thoroughly rubbed with UPTFE powder by impregnation on a cleaning cloth wound on a standard fisher. Subsequent control checks of the trunk showed the absence of corrosion products of the surface of the barrel during storage for up to 6 months.

 The known method of lubrication protects no more than 4 days. Using the proposed method provided a smooth movement of the mechanisms and corrosion protection even in the most severe operating conditions (rain, dirt, fogging). In addition, it was noted that when using a carbine with a previously lost gloss of the barrel, when, for example, after 3 shots the method was repeated for, for example, 6 cycles, the non-chrome barrel channel acquired a gloss that had been lost earlier before using the proposed method.

 The carbine KO-44, equipped with a standard optical sight of the 1941 model. Regular ammunition. Control firing after lubrication in a known manner confirmed the passive data of the accuracy of the battle at a distance of 100 m. It was 16 cm. After lubrication with the proposed method, the control firing showed the accuracy of the battle no worse than 5 cm at the same distance. At the same time, an overestimation of the average point of contact by 14 cm was noted relative to the result obtained after lubrication in a known manner.

 Thus, the proposed method allows to improve the operational characteristics of small arms.

Claims (2)

 1. A method of lubricating the barrel bore, parts and mechanisms of firearms, including cleaning and applying a protective layer, characterized in that an ultrafine polytetrafluoroethylene powder is applied as a protective layer.  2. The method according to claim 1, characterized in that a neutral lubricant layer is applied to areas that are not in frictional bond over a protective layer of ultrafine polytetrafluoroethylene powder.