RU2236003C1 - Manometric bomb of high pressure - Google Patents

Abstract

FIELD: measuring engineering.

SUBSTANCE: housing of the manometric bomb is made of two cylinders which are fitted one into the other with interference. The covers of the housing are provided with spacers. The face spacers are protected against powder combustion products by copper shields.

EFFECT: enhanced reliability.

1 dwg

Description

The invention relates to the field of testing explosives (explosives) and gunpowder, can be used in research and establishing patterns of combustion of explosives and gunpowders in a constant volume (increasing pressure).

Manometric bombs (MB) are known, designed to study and establish the laws of combustion of gunpowder and explosives [1, 2].

The disadvantages of the known MBs are that they cannot be used to test gunpowder at pressures of more than 500 ... 600 MPa, which is due to the design of the bomb body and the seal assembly of the closure caps, the material of the seal rings. In addition, in MB [2] it is impossible to experience regular gunpowder.

The closest in technical essence is MB [3], which is a thick-walled pipe-casing with two covers. Obturation of both covers is carried out using flat steel and rubber rings. An insulated electric input is mounted in one of the covers, a thin wire is attached to the internal end of the electrical input, the second end of which is connected to the bomb body via a pin screwed into the cover. To glow the wire causing the igniter to burn, voltage is applied to the insulated electric input and the bomb body. A pressure measurement sensor is mounted in the second cover. The assembly sequence of this MB: a cover with a pressure measuring sensor, rubber and steel rings are screwed into the housing on one side; in the internal cavity of the housing place a hinge of gunpowder; a cover with a hitch of an igniter, an incandescent wire, rubber and steel rings are screwed into the housing on the other hand; MB is installed in the clamps; tighten both covers with a wrench; connect the wires of the pressure sensor and fuse; carry out a burning sample of gunpowder.

A disadvantage of the known MB is that its body and the cover seal assembly operate up to pressures of not more than 500 MPa [3].

The objective of the invention is the creation of MB, allowing to burn gunpowder and explosives to pressures of 1100 MPa, technologically advanced in operation, providing high performance during the experiments.

The problem is solved in that in the proposed MB the casing is made of two cylinders, tightly inserted one into the other, the ignition cap is additionally equipped with an ignition spacer, the pressure measurement cap is additionally equipped with a pressure measurement spacer, the obturating rings in the cross section have the shape of a triangle with its base to small diameter of the ring, and the igniter spacer is equipped with a gas outlet, and the end surfaces of both spacers are protected from the effects of combustion products Oroha copper screen.

MB high pressure is shown in the drawing.

MB contains a housing 1 made of two cylinders, with a certain interference fit inserted one into the other, steel obturating rings 4 are located on both sides of the housing, which are pressed to the housing by a pressure measuring spacer 3 and an igniting spacer 5 with covers 2. A powder charge is placed in the inner cavity MB A portion of the igniter is located between the electrical inputs 6, one of which is electrically insulated from the housing. An incandescent wire is located between the electrical inputs, which is in contact with the igniter hitch. To release gases after the combustion of gunpowder, the ignition spacer 5 is equipped with a gas release device, which consists of a steel ball 7, a screw 8, which presses the ball against the saddle, and a gate with a steel cable 9, which are designed to remotely affect the gas release device. To protect the end surfaces of the spacers 3 and 5 from the effects of the combustion products of gunpowder, copper screens 10 are provided.

MB works as follows.

When you press the "Start" button on the control panel, an electric current of 24 ... 36 V is supplied to the electric inputs, an igniter hitch illuminates from the glow wire and then ignites and burns the gunpowder hitch.

The time-varying pressure in MB is measured using a pressure measuring sensor, which is located in spacer 3. When burning a sample of gunpowder, increasing forces in time on the inner surfaces of the obturating rings 4 press them into the gaps formed by the surfaces of the housing and the corresponding spacers. Due to the fact that the obturating rings in the cross section have the shape of a triangle with its base to a small diameter, the rings are pre-compressed during assembly, the normal stresses on the mating surfaces of the housing, spacers and obturating rings are always greater than the gas pressure in MB. All this provides a reliable seal of the working cavity MB during the burning of a sample of gunpowder.

The MB created allows the burning of gunpowder and explosives to a pressure of 1100 MPa, which is confirmed by the test results for the combustion of pyroxylin (PP) and ballistic (BP) gunpowders (table). In the experiments, there was a lack of flow of combustion products through the seals and the normal functioning of all the nodes of the MB. The advantages of the created MB are:

- high reliability and manufacturability to pressures of 1100 MPa:

- effective protection of the end surfaces of the spacers from the effects of high-temperature combustion products of gunpowder, provided by the use of copper screens.

Literature

1. M.E. Serebryakov. Internal ballistics. - M .: Oborongiz, 1949.592, p.137.

2. A.F. Belyaev, V.K. Bobolev, A.I. Korotkov, A.A. Sulimov, S.V. Chuiko. Transition of the combustion of condensed systems into an explosion. - M .: Nauka, 1973.

3. A.I. Holbinder. Laboratory work on the course: the theory of explosives. Rosvuzizdat, 1963.142, p. 42.

Claims (1)

Pressure gauge bomb containing a housing, an ignition cap with an insulated electric input mounted in it, a pressure metering cover and obturator rings, characterized in that the housing is made of two cylinders inserted tightly into one another, the ignition cap is additionally equipped with an ignition spacer, the metering cap the pressure is additionally equipped with a pressure measuring spacer, the obturating rings in the cross section are in the form of a triangle with its base to a small diameter of the rings , Igniting wherein the spacer is provided with a venting unit, and both end surfaces of the spacers are protected from exposure to the products of combustion of gunpowder copper screen.