SU788940A1 - Explosion chamber - Google Patents

Abstract

An EXPLOSIVE CAMERA, comprising a housing consisting of hermetically connected parts, a relief valve, gas and electrical inlets, characterized in that, in order to ensure operational safety and ease of operation, the parts of the chamber are connected through an elastic pressure element that performs the function waste valve. vl 00 00 with

Description

The invention relates to the investigation of explosive properties of a material, in particular, to explosive chambers for determining the flammable ability of electrical discharges in highly combustible media. At present, the study of the flammability of electrical discharges in combustible media is carried out at atmospheric pressure. An explosion in the chamber causes an ulcerous increase in pressure to 10–20 times its magnitude. However, such studies are extremely difficult due to the high demands on the strength of the explosion chamber. A known chamber for determining the ignition energies of combustible mixtures by high-voltage electrostatic sparks comprising a housing with electrodes embedded in the base, observation windows, branch pipes for input-output of the mixture and other technological inputs. The housing is made of all-metal stainless steel. The walls of the casing are so thick that they do not collapse with an increased explosion pressure. The lack of workpieces for the body, its considerable weight and complexity of processing make such cameras unique. The disadvantages include the low reliability of fastening the lead-in elements repeatedly dismantled during operation. With an increased explosion pressure due to the wear of threaded connections or possible personnel errors, these elements represent a real danger. An explosive chamber is also known, comprising a housing consisting of hermetically connected parts, a relief valve, gas and electrical inlets 2. This chamber is chosen as the prototype of the invention. For vapor-air research using high-voltage discharges, a chamber volume of about 1000 cm is needed. Creating a similar chamber for this purpose does not eliminate the use of thick stainless steel walls, since the low valve capacity does not effectively reduce the explosion pressure in such a large volume. The purpose of the invention is to ensure safe operation and ease of use. The goal is achieved by the fact that parts of the proposed chamber are connected through an I-elastic pressure element that performs the function of a waste valve. During an explosion in the chamber, an increase in pressure causes compression of the elastic element and depressurization at the junction of the body parts. Through the annular gap with a large flow area, an effective pressure relief occurs. The magnitude of the pressure at which the depressurization of the chamber occurs, as well as the dimensions of the slit, are determined by the appropriate choice of the shape and properties of the elastic elements and the degree of their preliminary compression. Effective pressure relief significantly reduces the strength requirements of the chamber. FIG. 1 shows the proposed camera, sealed) in FIG. 2 - the same, depressurized at the time of the explosion. The chamber contains a housing of detachable parts 1 and 2, detachable connection 3 with elastic elements 4. Electrodes 5 are mounted in the stationary part 2. Parts 1 and 2 are made of stainless steel sheet with a thickness of 5 mm by pressure treatment. 3-flange connection with threaded fasteners. Elements 4 are springs or pads of the hardness of rubber grades. The electrodes 5 serve to ignite the combustible mixture in the chamber. For normal (atmospheric initial pressure in the chamber, it is also possible to manufacture parts 1 from plastic, such as plexiglas, which allows visualization of the research process. At the moment of explosion in the chamber, due to the effect of increased pressure on the movable part 1 in compound 3, elements 4 are compressed. 1, the connection is depressurized and effective depressurization occurs. Depressurization of the chamber and effective depressurization allow investigations to be carried out with elevated similar pressure without occurring. and the explosion of ultrahigh pressures. Reducing the requirements for the strength of the explosion chamber makes it possible to study not only under normal pressure, but also under increased pressure, while also greatly increasing the safety of operating gas and electrical inputs.

Claims (1)

EXPLOSIVE CAMERA, comprising a housing consisting of hermetically connected parts, a relief valve, gas and electrical inputs, characterized in that, in order to ensure safe operation and ease of operation, parts of the chamber are connected through an elastic pressure element that performs the function of a relief valve.