RU1816248C - Oxygen cutter - Google Patents

Abstract

Usage: for gas-oxygen cutting of metal and removal of surface defects on ingots, cast and rolled billets. SUMMARY OF THE INVENTION: Three channels are made in the torch body: for supplying cutting oxygen, heating oxygen and combustible gas A normally closed valve is installed at the inlet and channel for supplying cutting oxygen. An opening is made in the housing between the channels for supplying combustible gas and cutting oxygen, in which a throttle washer and a normally closed valve are installed on the side of the channel for supplying cutting oxygen. 1 ill.

Description

The invention relates to metallurgy, in particular to flame treatment of metals, and can most effectively be used for gas-oxygen cutting of metal and removal of surface defects on ingots, cast and rolled billets.

The aim of the invention is to increase the productivity of the torch by reducing the cutting time and increasing durability,

This goal is achieved in that the channels for supplying cutting oxygen and combustible gas are interconnected by an opening with a throttle washer installed in it and a normally closed valve on the side of the cutting oxygen.

In the proposed oxy-fuel torch with the cutting oxygen turned off, the flame is not drawn into the channel of the cutting nozzle. The flow of fuel, the amount of

which is determined by the size of the orifice of the throttle washer. In addition, when the cutting oxygen is turned off, only flammable gas enters the flame through the channel of the cutting nozzle, it ignites at a certain distance from the end of the nozzle when it is mixed with flame oxygen, which has not yet entered into combustion reaction. Thus, the central flow of combustible gas will exert only a cooling effect on the cutting nozzle as a result of its adiabatic expansion upon release into the atmosphere. As a result of the additional supply of combustible gas to the flame, the burning speed of the flame decreases, its attachment to the end of the torch will be less dense and the mouthpiece will be heated less.

The combination of factors is the cooling effect of the flow of combustible gas in the channel of the cutting nozzle and on its cut, the lack of contact of oxygen with the end face of the mouthpiece and

00

CN U 00

with

its reduced heating by the flame, since the flame front is shifted towards the separation boundary causes an increase in the resistance of the end face of the mouthpiece and the cutting nozzle. When the workpiece is heated before cutting, an additional amount of combustible gas is introduced into the flame through the central channel of the cutting nozzle, increasing the flame power but not increasing the spot of heating. The heat input to the workpiece per unit area is increased, while the time of heating the edge to the ignition temperature is reduced, i.e. cutting time is reduced. When performing a large number of short cuts, the insertion time plays a significant role in the productivity of the process and its reduction increases productivity.

The invention is illustrated in the drawing.

The oxy-fuel cutter comprises a housing 1, a head 2, a mouthpiece 3, and a cutting nozzle 4. A cutting oxygen supply pipe 5 is connected to the head 2, at the input of which there is a normally-closed valve b, a heating oxygen supply pipe 7, and a combustible gas supply pipe 8. Pipelines 5 and 8 are interconnected by a bypass hole 9 in which a throttle washer 10 and a normally closed valve 11 are installed from the side of the pipe 5.

Oxygen cutter operates as follows.

The cutter is installed over the edge of the metal being cut and combustible gas is supplied via line 8. The main part of the combustible gas enters the atmosphere through the mouthpiece 3, and part through the bypass hole 9, the valve 11 and the throttle washer 10 through the pipe 5 through the cutting nozzle 4 also enters the atmosphere, where ignition occurs. Combustible gas in

the oxygen supply line is obstructed by valve 6. Then, heating oxygen is supplied via line 7, the flame is regulated, and the edge of the workpiece is heated. The torch at this time operates in heating mode.

After heating the workpiece, cutting oxygen is supplied under pressure, which, by opening valve b through pipe 5 and cutting nozzle 4, enters the heated

edge and ignites it. At the same time, valve 11 is activated, because the pressure of the cutting oxygen is higher than the pressure of the combustible gas and the bypass cavity 9 is closed, the compartment of the combustible gas from the pipeline

5 supply of cutting oxygen.

This embodiment of the oxy-fuel torch can improve cutting performance by reducing the time of cutting into the workpiece and increases the term

cutter service.

Claims (1)

SUMMARY OF THE INVENTION An oxy-fuel cutter comprising a housing with a channel for supplying cutting oxygen, the input of which is mounted normally closed valve, and channels for supplying heating oxygen and combustible gas, characterized in that the cutter is equipped with a throttle washer and an additional normally closed valve located in an opening made in the housing between the channels for supplying cutting oxygen and combustible gas.