RU70475U1 - MANUAL GAS CUTTER - Google Patents

Abstract

The invention relates to the technology of cutting metals by local heating and can be used in steelmaking for manual cutting of steel billets. The technical task is to provide the necessary speed of the jet of heating oxygen, increasing the speed of metal cutting. The cutter comprises a handle with channels for supplying oxygen and combustible gas, a housing, a mixing chamber, a pipe for supplying a mixture of heating oxygen and combustible gas, and a pipe for supplying cutting oxygen to the head with a mouthpiece, the housing being provided with a channel for supplying heating oxygen connected to expansion chamber.

Description

The utility model relates to the technology of cutting metals by local heating and can be used in steelmaking for dividing manual cutting of steel billets, for example, cast slabs into measured lengths.

A known oxy-fuel cutter "Vostok" containing channels for supplying oxygen and combustible gas with valves connected to a housing on which the mixing chamber is fixed, the housing and the mixing chamber forming a mixture formation unit serving to form a mixture of oxygen of the heating and combustible gas. Two channels are made in the housing, one for supplying combustible gas, and the other made curved with sections of the same diameter for supplying heating oxygen. The mixing chamber is connected by a tube of a mixture of heating oxygen and combustible gas, which is connected to the torch head, and the cutting oxygen tube is also connected to the torch head (GOST-15150-69).

The disadvantage of this cutter is the insufficient speed of the jet of heating oxygen, resulting in a reduced injection of a supply of combustible gas.

The closest analogue to the claimed cutter is a manual cutter for oxygen cutting of metal, containing a handle with channels and valves for supplying oxygen and combustible gas, attached to the housing, a mixing chamber sealed to the housing, and the housing and mixing chamber form a mixing unit, in addition in the housing there is a channel for supplying combustible gas and a channel for heating oxygen, the latter is made of sections of the same diameter located at an angle of 90 ° to each other, the tube

for supplying a mixture of oxygen and combustible gas into a head with a mouthpiece and a tube with a valve for supplying cutting oxygen to the head (RF patent No. 51548).

The disadvantage of this cutter is the low speed of the jet of heating oxygen in the mixing unit, and therefore insufficient injection to supply combustible gas.

The technical task of the proposed utility model is to provide the necessary speed of a jet of heating oxygen, which will provide the required level of injection when supplying combustible gas, and therefore increase the speed of metal cutting.

The stated technical problem is solved in that in a manual gas cutter containing a handle with channels and valves for supplying oxygen and combustible gas, attached to a housing to which the mixing chamber is hermetically attached, a tube for supplying a mixture of heating oxygen and combustible gas to the head with the mouthpiece, a tube with a valve for supplying cutting oxygen to the head, and channels for supplying oxygen and combustible gas are made in the housing; moreover, the channel in the housing for supplying oxygen is provided with an expansion chamber (receiver), the axis of symmetry of which is located at an angle to the axis of the channel for oxygen supply.

The essence of the utility model is illustrated by drawings, where Fig. 1 schematically shows a cutter of the claimed design, and in Fig. 2 a section of a mixing unit (a housing connected to a mixing chamber).

The hand torch contains channels for supplying oxygen 1 of FIG. 1 and combustible gas 2 located in a handle 3 connected to the housing 4, which is hermetically connected to the mixing chamber 5. Valve 6 is installed in the channel for supplying oxygen 1 and provides oxygen to the channel for oxygen supply 7, made in the housing 4. The valve 8 is installed in the channel for supplying combustible gas 2 and provides the supply of combustible gas to the housing 4. Channel 9 of the mixing chamber 5 is connected to the tube 10 for supplying a mixture of heating oxygen and fuel

gas into the head 11 with the mouthpiece 12. The tube 13 with the valve 14 serves to supply cutting oxygen to the head 11.

In the housing 4, the channel for supplying oxygen 7 is connected at one end to an expansion chamber 15 located at an angle to it, namely, so that the axis of symmetry of the channel 7 and chamber 15 are located at an angle to each other, for example, at an angle of 90 °. The expansion chamber 15 is connected to the channel 9 of the mixing chamber 5.

The proposed cutter operates as follows.

Channels 1 and 2 supply oxygen and a combustible gas, for example, methane, respectively. Part of the oxygen by the valve 6 is directed into the housing 4 into its oxygen supply channel 7, from where oxygen enters the expansion chamber 15, where it accumulates and then evenly enters the channel 9 of the mixing chamber 5, where a mixture of heating oxygen and combustible gas is formed, which further enters the tube 10, through which it is transferred to the head 11 and to the mouthpiece 12. At this time, through the channel 1, then through the tube 13, cutting oxygen is supplied to the head 11 and then to the cut zone.

The use of expansion measure 15 in the housing 4 provides a high uniform pressure in the jet of heating oxygen in front of the mixing chamber 5, which increases the injection when supplying combustible gas, all this contributes to an increase in the productivity of metal cutting.

The cutter of the proposed design successfully works in the oxygen-converter and steelmaking shops of OJSC MMK.

Claims (1)

A manual gas cutter containing a handle with channels and valves for supplying oxygen and combustible gas, attached to a housing to which the mixing chamber is hermetically fixed, a tube for supplying a mixture of heating oxygen and combustible gas to the head with a mouthpiece, a tube with a valve for supplying cutting oxygen to a head, and in the housing there are channels for supplying oxygen and combustible gas, characterized in that the channel in the housing for supplying oxygen is equipped with an expansion chamber (receiver), the axis of symmetry of which is located at an angle to the axis of the channel for supplying oxygen, and the expansion chamber has an exit to the channel of the mixing chamber.