RU48844U1 - METAL CUTTING DEVICE - Google Patents

Abstract

The utility model relates to the field of ferrous metallurgy, in particular to devices for cutting metal and can be used on continuous casting machines for cutting slabs and high-quality billets. The technical problem solved by the utility model is to increase the life of the torch, reduce emergency downtime, increase the cutting speed, and, therefore, increase the productivity of continuous casting machines. The essence of the utility model lies in the fact that the device for cutting metals, including a nozzle, a torch head, a main body, in which there are tubes of heating oxygen, cutting oxygen and gas pipes connected to the torch head, and water cooling tubes of the surface of the torch head, contains an additional two-chamber case, one of the chambers of which is connected to a gas tube and a heating oxygen tube, and the other to water cooling tubes, and between the outer part of the main body and the inner hour An additional housing has an annular gap for the passage of the gas-oxygen mixture.

Description

The utility model relates to the field of ferrous metallurgy, in particular to devices for cutting metal and can be used on continuous casting machines for cutting slabs and high-quality billets.

A device is known for cutting metal, including a nozzle, a torch head, a housing in which tubes of heating oxygen, cutting oxygen, gas, which are connected to the torch head, and water cooling tubes of the surface of the torch head are located (Fig. SB-500F, GeGa, Germany )

The disadvantages of the known device are the rapid failure of the nozzle due to splashing of metal and scale on it, as well as its quick burnout due to its close proximity to the metal being cut, insufficient cutting speed, which leads to a decrease in production.

The closest analogue to the claimed object is a cutter for cutting slabs, including a nozzle, a torch head, a housing in which tubes of heating oxygen, cutting oxygen, gas, which are connected to the torch head, and water cooling tubes of the surface of the torch head are located (Fig. M35123.00.000 SB OJSC “Magnitogorsk Gipromez”).

The disadvantages of the known cutter for cutting slabs are: a quick failure of the nozzle due to splashing on it of metal and scale, as well as a quick burnout of the nozzle, which leads to frequent repairs of the torch and reduce the life of the torch; insufficient cutting speed, which leads to lower production.

The technical problem solved by the utility model is to increase the life of the torch, reduce emergency downtime, increase the cutting speed, and, consequently, increase the productivity of the continuous casting machine.

The problem is solved in that the device for cutting metals, including a nozzle, a torch head, a main body, in which

heating oxygen, cutting oxygen and gas tubes are located, connected to the torch head, and the water cooling tubes of the torch head surface, unlike the closest analogue, is equipped with an additional two-chamber housing, one of the chambers of which is connected to the gas tube and the heating oxygen tube, and the other with water cooling tubes, and between the outer part of the main body and the inner part of the additional body made an annular gap for the passage of the gas-oxygen mixture.

The essence of the utility model is illustrated in the drawing, which schematically shows a General view of the torch.

A metal cutting device comprises a nozzle 1, a torch head 2, a main body 3, in which heating oxygen tubes 4, cutting oxygen tubes 5, gas tubes 6 that are connected to the torch head 2, water cooling tubes 7 of the surface of the torch head 2 are located. equipped with an additional housing 8, consisting of a chamber 9 and a chamber 10. The chamber 9 is connected to the heating oxygen tube 11 and the gas pipe 12, and the chamber 10 is connected to the water cooling tubes 13. Between the outer part of the main body 3 and the inside the th part of the additional housing 8 has an annular gap 14 for the passage of the gas-oxygen mixture.

The device operates as follows:

Heating tubes are fed through tubes 4 to the head of torch 2, combustible gas is supplied through tubes 6, when these gases are mixed, a combustible mixture is formed, then cutting oxygen is supplied through tubes 5. At the exit of the nozzle 1, a flame is formed. At the same time, heating oxygen and combustible gas are supplied through tubes 11 and 12 to chamber 9, where they are mixed and ignited. This mixture passes through the annular gap 14.

During the cutting process, cuttings 7 are supplied with water to cool the surface of the head, and water is supplied through tubes 13 to the chamber 10 for cooling the main body 3.

The presence of an annular gap contributes to the formation of a heat shield, preparation (heating) of the metal surface, thereby increasing the cutting speed, in addition, the presence of a heat shield allows you to save the heat of the heating flame, which allows you to increase the distance of the nozzle to the metal surface from 100-120 mm of a known torch to 200 -250 mm, thereby protecting the nozzle from splashing and scale.

The proposed device for cutting metal was manufactured at the Magnitogorsk Iron and Steel Works and tested when cutting slabs in an oxygen-converter shop. The test results showed that the time for edge warming was reduced by 10-15 seconds, the cutting speed increased sharply, emergency downtime due to burner failure due to burnout was significantly reduced, which resulted in an increase in CCM productivity.

Claims (1)

A device for cutting metal, including a nozzle, a torch head, a main body in which heating oxygen, cutting oxygen and gas tubes are arranged connected to the torch head and a water cooling tube of the surface of the torch head, characterized in that the device is provided with an additional two-chamber housing, one of the chambers of which are connected to the gas pipe and the heating oxygen pipe, and the other to the water cooling pipes, supplement between the outer part of the main body and the inner part nogo housing an annular gap.