SU1019174A1 - Cutter for separation-type gas-flame cutting of metals - Google Patents

Abstract

CUTTING FOR DIVIDING GAS-PLASMA CUTTING OF METALS, containing a head with interchangeable mouthpieces placed in the head, a valve body for supplying recharging oxygen, combined with the head of the tube for supplying oxygen and combustible gas, as well as a chamber, mixing and injector housing injecting channel, which, in order to increase safety by preventing the mixing chamber from burning during the backfire of the flame, the mixing chamber and the injector body are placed in the valve body for supplying cutting oxygen, and The kinship axis of the injector body is perpendicular to the ss mixing chamber, while in the injector case, parallel and perpendicular to the injecting channel are channels for supplying respectively cutting oxygen and oxygen to the combustible mixture, and in the valve body there is a channel for supplying the cutting oxygen, This channel is connected to the channel for supplying the cutting oxygen of the injector, and the mixing chamber with the channel for supplying oxygen to the combustible mixture and the injection channel made in the injector body.

Description

The invention relates to gas-plasma processing of metals, more precisely to the field of separation cutting with oxygen using a combustible mixture consisting of combustible gas and oxygen.

A cutter for cutting metals is known, comprising a head with interchangeable nozzles, an oxygen tube and a combustible gas. In the head of the cutter, there is a cutting oxygen channel, an oxygen channel for the combustible mixture passing to the channel of the mixing chamber, and a combustible gas channel intersecting with this channel near the oxygen channel of the combustible mixture. The cutter has a low material consumption fl.

The drawbacks of this cutter are the laboriousness of making a flame, as well as heating of the hatching by a reflected flame, limited size of the combustible gas channel, which causes an increased pressure of the combustible gas, an unstable composition of the combustible mixture, and a burnout of the head during the backfire of the flame,

Its closest to the invention to the technical essence is a cutter for cutting metals, containing a head with interchangeable mouthpieces placed in the head, valve body for supplying cutting oxygen, connected to the head of the tube for supplying oxygen and combustible gas, as well as the mixing chamber and injector body injected by the channel. In this cutter, the pressure of the Combustible gas is insignificant, with the fuel mixture being stable, as there is no heating of the mixing chamber and the injector 2 J

The disadvantage of this type of cutter is the rapid burn-through of the mixing chamber with the penetration of the flame backfire, which is explained by the small mass of the mixing chamber, the increase of which (without the increase of other parts of the cutter is impossible).

The aim of the invention is to increase safety by preventing the combustion of the mixing chamber when the flame strikes back.

To achieve the goal in a cutter containing a head with interchangeable mouthpieces, a valve body for supplying cutting oxygen located in the head, connected to the head of the tube for

supplying oxygen and combustible gas, as well as the displacement chamber and the injector body with the injecting channel, parallel and perpendicular to the injecting channel, channels for supplying the cutting oxygen and oxygen of the combustible mixture respectively are provided, and the channel for supplying the cutting oxygen is provided in the valve body, 10 this channel is connected to the channel for supplying the cutting oxygen of the injector, and the mixing chamber is connected with the channel for supplying the oxygen of the combustible mixture and the injection channel formed in the injector body.

The drawing shows the proposed cutter, a general view.

The cutter includes interchangeable mouthpieces 1, a head 2, a combustible tube 20 of a mixture 3 and an oxygen tube for cutting k, connected to the coil of the valve 5 and head i, screw 6, kinematically connected with the injector body 7, rubber ring 8, adapter 9 and cap nut 10,

The valve body is made of a variable-section camera. A smaller section of the chamber a is connected on the side of the adapter 9 with the channel b 0 of combustible gas, and on the side of the tube 3C the channel of the mixing chamber c. A part of the chamber, with a larger cross section on the side of the adapter, is connected to the channel, G of oxygen, and on the side of the cutting oxygen tube i, to the channel d of cutting oxygen.

In the case of the injector 7, the channels e and z are arranged parallel and perpendicular to the injecting canal. The e channel serves cutting oxygen, and the g channel sends oxygen to the combustible mixture.

The injecting channel and is located along the axis of the channel of the displacement chamber. 5 Screw 6 is kinematically connected with the body of the injector 7 so that the surface of the latter ensures the tightness of the upper part of the chamber a from its lower part.

The cutter works as follows. In the presence of a stream of oxygen and burning gas at the inlet to the channels of the adapter E, oxygen flows out into the upper part of the chamber and into the channels e, g, and the injector housing 7. The cross sections of the channel and injector 7 of the channel into the mixing chambers 1 and mouthpieces 1 are chosen so that The bottom of the chamber a is always discharged, which makes it possible to operate 3101917 from the low-pressure sources of combustible gas and prevent:; a backfire flame in the combustible gas channel. The outflow of oxygen through the canal and the injector housing 7 carries the combustible gas into the channel of the mixing chamber, where they are mixed. The combustible mixture through the tube 3 is directed to the head and the ke and then through the nozzle 1 to the atmosphere, where it ignites during ignition, forming a flame for heating the metal and cutting it. . Through the channels e of the injector 7 in the top-: is her part of the chamber and the oxygen is directed to the channel d and then the tube 4, the head 2 and the mouthpieces 1 - to the cutting zone. Ring 8 gudeo-preserves the outflow of oxygen into the atmosphere from the chamber a. The location of the channel in the displacement chambers in the valve body excludes the captive nuts, nipple and mixture itself. The effective chamber as a part, and the benefit; 25 p perpendicular to the location of the injector body 7 is reduced from 5 times .4 gauge to the valve body 5, which reduces the consumption of materials and labor intensity, the valve body 5 has a considerable mass, therefore, when there are hits and a return flame, the rip case intensively spreads into the channel of the mixing chamber into heat, which prevents the case from deforming the body from heat. The presence of a cutting oxygen channel d, wedged in the same housing, leads to intensive cooling of the housing, as a result of which the channel of the mixing chamber does not form a cortex of the housing in the wall. In the cutter, the mixing chamber does not burn and does not deform until it burns through the combustible mixture tube 3 connected to the valve casing 5. But tube 3 can be connected to the valve casing again and the cutter can be used again, at that time difficult and expensive, and you need to buy a new cutter.

Claims (1)

CUTTER FOR SEPARATING GAS AND PLASMA CUTTING OF METALS, comprising a head with interchangeable mouthpieces placed in the head, a valve body for supplying cutting oxygen connected to a head of a tube for supplying oxygen and combustible gas, as well as a mixing chamber and an injector body and an injection channel, characterized in that, in order to increase safety by preventing combustion of the mixing chamber during a flameback, the mixing chamber and injector body are located in the valve body for supplying cutting oxygen, and the longitudinal the axis of the injector body is perpendicular to the mixing chamber, while in the injector body, parallel and perpendicular to the injection channel are channels for supplying cutting oxygen and oxygen of combustible g mixture, respectively, and a channel for supplying cutting oxygen is made in the valve body, said the channel is connected by a scanner for feeding the cutting oxygen of the injector, and the mixing chamber with the channel for supplying oxygen of the combustible mixture and the injection channel made in the injector body .. SU .... 1019174 f