SU750359A1 - Device for determining igniting ability of electric sparking - Google Patents

Description

reduces TtrtHocTb when evaluating the flammable ability of a low-power electric spark.

The chain of the invention is to improve the accuracy of the research and the efficiency of the device.

This is achieved by the fact that the chamber is made in the form of a glass, and the sparking mechanism is a rod, the pointed end of which is located in the zone of the open end of the glass, and the other is connected to the vibratory mechanism, and the flame arrester is combined with the handle of the device,

 In order to reduce the loss of combustible mixture on surfaces having a curvature, on the open end of the explosion chamber, linings are reinforced.

FIG. 1 schematically shows the proposed device; in fig. 2, view A in FIG. one.

The proposed device, ispolg: zovashyuy in work, has dimensions 25Ox70x4O mm. Diameter of the explosion chamber is 40 mm.

The explosion chamber I is made of 1 transparent organic glass and is made in the form of a glass. A rod 2 passes through the hole in the bottom of the glass, which is the earth-moving mobile contact of the sparking mechanism. The sharpened shaft 2 is located in the open part of the blast chamber. The rod 3 is grounded by means of a grounding lead 3 connected to the grounding conductor 4. connecting, in turn, to the grounding device. At its other end, the rod is pivotally connected to the vibratory mechanism by means of the bar 5. As a vibratory motion, a magnetic system (magnetic core with a coil) from the intermediate relay of the mixed current and voltage can be used. 220 V. The coil of the relay is powered from the mains, and the field heating diode must be connected to it in series with which the magnet 6 to which the strip 5 is connected, vibrates the amplitude of the oscillation of the strip 5 and, therefore, the rod 2, is regulated by a screw 7 and a screw 8, tightening the Prunagau 9. Screws 7 and 8 are fitted with self-tamper locknuts. Move the device's vibrator

together with the rod 2; produce along the guides 10. A screw and a sleeves for fixing the position of the vibrating device on the guides.

The handles of the weight reduction device are combined with a flame arrester. It consists of a body 12 made of plexiglass; at one end of the body there is a lid with

fitting 13 serving to connect with a rubber tube and a source of combustible mixture. At the other end, the lid is attached to a metal tube 14, which is inserted into the hooking bolt 15 gkh. Bolt 15

has along the axis of the hole, combined with the channel of the tube 14. The other end of the tube 14 is located inside the explosion chamber 1.

Inside the handle there is a fireproof

A curtain consisting of two gaskets 16 of durable porous material, for example of compressed fine copper wire, between which is fine-grained sand 17. A layer of sand

60 mm, which ensures its heat-blocking action with a sufficiently small resistance to the flow of the hot mixture. One of the gaskets 16 is supported by a spring 18, which provides compaction

sand filling.

At the open end of the blasting chamber 1, two plates 19 are installed in the form of segments, each of which is attached with countersunk screws. Segmented lining can be made in very large sizes, but their diameter must be equal to di-,. to the meter of the explosion chamber. The size of the segment linings is determined by the curvature of individual sections of the machine bed, for example, a gas-motor compressor, the sparking on the surface of which is investigated.

The device works as follows.

j fitting 13 connects a rubber tube through which a combustible mixture is supplied from a source, for example, oxygen-hydrogen from an electrolytic cell of type PUE designed for this purpose.

Delhi, or to the container with a combustible mixture. The ground conductor 4 is connected to the ground wiring, and is fed to the coil of the vibrating device through a semiconductor diode

voltage from mains 220 c.

The device is applied to the test surface by an open opening of the explosion chamber 1 so that the pointed end of the rod 2, when vibrated, comes into contact with the test surface. The latter is achieved by appropriate installation of the vibration device on the directions of their l6 and fixing it in the required position with screw 11. If it is required to change the amplitude of oscillations of the rod 2, this is done by appropriate tension of spring 9 with screw 8 and screw 7 that limits the melting oscillation 5. the pointed end of the rod 2 and the surface to be examined, to which the open aperture of the bursting chamber is attached, occurs in the atmosphere of the combustible mixture. When the mixture ignites inside the explosion chamber through the transparent wall, it can see a flame and, if there is no noise in the paste, then the sound of an explosion is heard. The process of CLEANING the chamber from the product of combustion occurs due to the uninterrupted supply of the combustible mixture to the chamber. When the mixture inside the explosion chamber 1 is ignited, the combustion of the mixture at low speeds can be transmitted through the tube 14 only up to the flame arrester (sand filling). However, in the rubber tube that supplies the hot mixture to the device, there will be no gurenis. When the proposed device is in operation, the number of explosions is recorded by the flashes of the mixture in an explosive, and the number of sparks is recorded by a stopwatch, in the mean that 5 second sparks occur per second. Using these data, the evaluation of the igniting ability of an electric spark can be determined - the probability of ignition of the combustible mixture. The application of the proposed device will give an increase in the accuracy of research and work efficiency due to the continuity of the device operation, which is very important, taking into account the need for a large number of references for possible static processing of experimental results. “1ta. The formula for finding an apparatus for determining the ignition potential of an electrical arcing, including an explosion chamber in which an accelerating mechanism is located, and a source of a combustible mixture, connected to a mitera fire detector, characterized in that, in order to increase the accuracy of research and operating efficiency, the chamber is made "1a is in the form of a glass, and the production mechanism is represented by a hemlock, the pointed end of which is located in the zone of the open end of the glass, and the other is connected to the vibrating mechanism: pregraditel taoy aligned with the handle of the device. 2. The device according to claim 1, which is designed for the purpose of reducing the combustible mixture on the surfaces that have curvature, on the open end of the explosion chamber are reinforced linings. Sources of information taken into account during the examination 1. USSR author's certificate number 239652, cl. G O1 N 25/54, 1967. 2. USSR author's certificate No. 385211, cl. G01 N 25/54, 1969 (prototype).

Claims (2)

Claim A device for determining the flammability of electric nets of rotation, including an explosive chamber in which the spark production mechanism is located, and a source of combustible mixture connected to the chamber through a flame arrester, characterized in that 2Q, with a chain for increasing the accuracy of research and work efficiency, the explosive chamber is made in the form of a glass , and the spark-producing mechanism is a rod, the pointed end of which is located in the area of the open end of the glass, and the other is connected to a vibration mechanism, fire the barrier is combined with the handle of the device. 2. The device according to π. 1, the fact that, with a chain to reduce the loss of the combustible mixture, on the surfaces: having a curvature, the pads are strengthened on the open end of the explosive chamber. 35 Sources of information taken into account in the examination 1. USSR Copyright Certificate No. 239652, cl. G ΟΙ N 25/54, 1967. 2. USSR author's certificate hell No. 385211, cl. G 01 N 25/54, 1969 (prototype). FIG. I