RU175736U1 - Manometer bomb - Google Patents

Abstract

The utility model relates to high-pressure apparatuses for studying the combustion processes of gunpowder and explosives in a confined space and is intended to study the erosive-erosive effect of gunpowder combustion products on the surface of the barrel of a firearm. A manometric bomb includes at least a thick-walled cylindrical body on which is mounted , one pressure measuring sensor, an ignition plug with two electrodes, one of which is electrically insulated from the body, and a plug with gas exhaust channels . In a tube with gas exhaust channels, a cylindrical recess is made for a removable sleeve, at the bottom of which there is an annular groove communicating with the gas exhaust channels. The detachable sleeve is a fragment of a rifled weapon barrel with a test surface, into which a cylinder with a control surface with a diameter equal to the caliber of the barrel is inserted. The proposed device allows simulating the erosive-erosive effect of gunpowder combustion products on the surface of a barrel of a rifled firearm and conducts a comparative analysis of the quality of the test surface barrel barrel rifled firearms and control.

Description

The utility model relates to high-pressure apparatuses for studying the combustion processes of gunpowder and explosives in a confined space and is intended to study the height-erosive effect of the products of combustion of gunpowder on the surface of the barrel of a firearm.

The study of the effect of gunpowder combustion products on the surface of the barrel channel is important when developing technologies for manufacturing, processing and coating the channels of rifled barrels of various calibers, since the burning of the barrel first significantly reduces the accuracy of fire, and then after a certain number of shots makes the weapon completely unsuitable. Currently, lengthy field tests are a method for assessing the quality of the inner surface of a threaded barrel. There is a need to develop a device for rapid research of the hot-erosion effect of the combustion products of gunpowder on the surface of the barrel.

As a prototype, a manometric bomb (MB) was selected, including a thick-walled tube with end caps, sealed rings. In one of the plugs there is a fuse assembly with an insulated electrode, in the other - a pressure sensor (A.G. Gorst. "Gunpowder and BB", Mechanical Engineering, 1972, pp. 44-45). This MB is intended and used solely to determine the ballistic characteristics of gunpowder.

The objective of the utility model is the development of the MB design, which allows modeling the hot erosion effect of gunpowder combustion products on the surface of the barrel channel of a rifled firearm.

This task is achieved by a manometric bomb, which includes a thick-walled cylindrical body on which at least one pressure measuring sensor is mounted, an ignition plug with two electrodes, one of which is electrically insulated from the housing, and a plug with gas exhaust channels, in which a cylindrical recess is made for a removable sleeve, an annular groove is made at the bottom of the recess, communicating with the gas exhaust channels, while the removable sleeve is a fragment of the barrel of a rifled weapon with the studied surface The surface into which the cylinder is inserted with a control surface with a diameter equal to the caliber of the barrel.

The technical result is the design of MB, which ensures the expiration of combustion products with high speed on the investigated and control surfaces and allows you to determine the quality of the surface of the barrel bore of rifled firearms in comparison with the control.

The utility model is illustrated by drawings:

in FIG. 1 shows a diagram of a manometric bomb;

in FIG. 2 is a photograph of test coating bushings and control coating cylinders after testing.

MB (Fig. 1) includes a thick-walled steel cylindrical body 1, into which the pilot plug 2 and plug 3 with a gas outlet assembly are wrapped. A pressure measuring sensor 4 is installed in the MB housing. An electrically insulated rod 5 with an electrode 6 is inserted into the ignition plug 2 to effect ignition. The second electrode 7 is connected to the casing of the plug 2. In the plug 3 there is a cylindrical recess for the removable sleeve 8, at the bottom of which there is an annular groove A, communicating with the channels B for the release of gases. The sleeve 8 is a fragment of a rifled barrel of a firearm with an investigated surface, a sleeve 9 is inserted into the sleeve 8 with a control surface with a diameter equal to the caliber of the barrel. The tightness of the collected vessel is carried out by the sealing rings 10.

MB works as follows.

The sleeve 8 is made of a finished barrel rifled guns, the quality of the surface of the channel which must be investigated. The surface of the cylinder 9 is processed according to known technology (control surface).

On the electrodes 6 and 7 of the ignition plug 2, a wire with a high resistance is mounted, threaded through a bag with an igniter. The ignition plug 2 with the sealing ring 10 is screwed into the housing 1, and the MB is installed vertically with the ignition plug 2 down. A sample of gunpowder is placed in the cavity W. A cylinder 9 is inserted into the sleeve 8, on the same side a sealing ring 10 is put on it. The sleeve 8, in turn, is placed in the plug 3. Then, the assembled gas discharge unit is wrapped in the housing 1.

During the test, after applying voltage to the electrodes 6 through the electrically insulated rod 5 and the electrode 7 through the casing of the plug 2, the igniter first lights up, then the powder charge. As they form, hot combustion products expire between the rifling of the sleeve 8 and the surface of the cylinder 9, then along the annular groove A and the channels B of the tube 3 exit. After the test, the MBs are disassembled and inspected parts 8 and 9. If both surfaces are not damaged, the mass of gunpowder is increased, and the test is repeated.

In FIG. 2 on the left it is seen that the control surface of the cylinder 9 is eroded with powder gases, while the investigated surface of the bore is not broken, therefore, the technology of processing the bore is preferable to the technology of processing the surface of the cylinder. If both surfaces are blurred (Fig. 2 on the right), the mass of gunpowder should be reduced, parts 8 and 9 should be replaced, and the test repeated.

In the case when the deterioration of the quality of the investigated surface is not observed, the sleeve 8 is cut along and its surface is subjected to laboratory research.

Thus, the proposed pressure gauge bomb allows simulating the erosive-erosive effect of gunpowder combustion products on the surface of the barrel channel of a rifled firearm and conducts a comparative analysis of the quality of the investigated surface of the barrel bore of a rifled firearm and control.

Claims (1)

A manometric bomb, including a thick-walled cylindrical body on which at least one pressure measuring sensor is mounted, an ignition plug with two electrodes, one of which is electrically insulated from the housing, and a plug with gas exhaust channels, in which a cylindrical recess is made for a removable sleeve, an annular groove is made at the bottom of the recess, communicating with the gas exhaust channels, the removable sleeve being a fragment of the barrel of a rifled weapon with a test surface into which Indras against the reference surface diameter equal to the caliber of the barrel.

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