RU51548U1 - HAND METAL OXYGEN CUTTER - Google Patents

Abstract

The utility model relates to the technology of cutting hot metal by local heating and can be used for cutting steel cast slabs. The torch is simple in design, safe to operate and has a high service life. The cutter contains channels for supplying oxygen and combustible gas in the handle connected to the housing, which is hermetically connected to the mixing chamber by means of a weld. From the mixing chamber, a mixture of oxygen and combustible gas enters the torch head, where oxygen is also supplied separately.

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 hot steel billets, for example cast slabs into measured lengths.

Known cutter for oxygen cutting of metal on liquid fuel, containing a head with a nozzle, with internal and external mouthpieces, an evaporation chamber, a mixing chamber, a receiving chamber and a nozzle coaxially mounted in it, connected to a heating oxygen pipe, and also pipelines for supplying liquid fuel and cutting oxygen, the mixing chamber is equipped with a diffuser, and the nozzle is made in the form of a supersonic nozzle (RF patent No. 2076791).

The disadvantages of this analogue are the inability to use hot steel billets for cutting, because This cutter does not withstand high temperatures and is dangerous for the cutter, due to the possibility of ignition during metal cutting.

The closest analogue to the claimed cutter is a universal injection cutter containing channels for supplying oxygen and combustible gas located in the handle, a housing, an injector, a mixing chamber, valves, tubes for supplying a mixture of oxygen and combustible gas, oxygen, a head with a mouthpiece, and a union nut ( Welding and cutting of materials, under the editorship of Yu.V. Kazakov. - M. Publishing Center "Academy", 2001. - pp. 266-297).

The disadvantages of this torch are the inability to work with hot metal associated with the possibility of ignition of the torch, i.e. difficult working conditions of the gas cutter, design complexity, lack of reliability, and therefore a short service life.

The technological task of the proposed utility model is to ensure the safe operation of the gas cutter, increase the reliability of the structure, and therefore increase its service life and reduce downtime during hot cutting of metal.

The stated technical problem is achieved due to the fact that in a manual cutting torch for oxygen cutting of metal, containing a handle with channels for supplying oxygen and combustible gas, attached to the housing, a mixing chamber, valves for supplying oxygen and combustible gas to the mixing chamber, a pipe for supplying the mixture oxygen and combustible gas into the head with the mouthpiece, a tube with a valve for supplying oxygen to the head, the mixing chamber is installed with the possibility of contact of a part of its outer surface with the housing and fixed in the last it is hermetically welded seam.

The organization of mixing oxygen and combustible gas (for example, methane) proposed in this cutter greatly simplifies the design of the cutter and provides safe working conditions for gas cutters, by eliminating gas emissions, by tightly connecting the mixing chamber and the housing. In addition, the simplicity of the proposed design allows to increase reliability, and consequently, the overhaul life and thereby reduces the downtime of the torch caused by its failure.

The essence of the utility model is illustrated by drawings, where in Fig.1 - is a diagram of the proposed cutter, and in Fig.2 - node A in Fig.1.

The cutter contains channels for supplying oxygen 1 of FIG. 1 and combustible gas 2 mounted in a handle 3 connected to the housing 4. The housing 4 of FIG. 2 is connected directly to the mixing chamber 5 by a welded joint 6. The mixing chamber 5 is mounted with the possibility of contact with part of its outer surfaces with the housing 4. A welded joint 6 provides a tight connection between the housing 4 and the mixing chamber 5. The valve 7 of FIG. 1 is installed in the channel for supplying oxygen 1 and provides the oxygen supply to the housing 4. The valve 8 is installed in the channel for chi 2 fuel gas and supplying the fuel gas into the mixing chamber 4. The housing 5 is connected

tube 9 with the outer part 10 of the mouthpiece. The mouthpiece has two parts, the outer 10 and the inner part located in it and coaxially with the gap with it. Both parts of the mouthpiece are screwed into the head 11. The cutter is equipped with a valve 12, from which oxygen flows through the tube 13 to the inside of the mouthpiece.

The proposed cutter operates as follows.

Through channels 1, 2, oxygen and a combustible gas, for example methane, are supplied. Part of the oxygen valve 7 is sent to the housing 4, where through the valve 8 is supplied combustible gas. Then both gases enter the mixing chamber 5, where a vacuum is created and a mixture of gases is formed. From the mixing chamber 5, the gas mixture through the tube 9 enters the outer part 10 of the mouthpiece of the head 11, forming a heating flame.

After heating the cutting zone, open the valve 12 of the cutting oxygen, which through the tube 13 enters the head 11, and then into the mouthpiece and forms a stream of cutting oxygen.

The proposed design of the torch was introduced in the oxygen-converter shop of OJSC MMK. During operation, the cutter showed high technical characteristics and ensured the safety of the cutter.

Claims (1)

Hand torch for oxygen cutting of metal, containing a handle with channels for supplying oxygen and combustible gas, attached to the housing, a mixing chamber, valves for supplying oxygen and combustible gas to the mixing chamber, a tube for supplying a mixture of oxygen and combustible gas into the head with a mouthpiece, a tube with a valve for supplying oxygen to the head, characterized in that the mixing chamber is installed with the possibility of contact of a part of its outer surface with the housing and secured in the latter by a hermetically welded seam.