RU92821U1 - REPLACEABLE INSERT FOR GAS CUTTER - Google Patents

Abstract

 1. A replaceable insert for a gas cutter containing a hollow outer mouthpiece, a cylindrical hole of which is made with a step of a larger diameter and communicated with a conical hole, an inner mouthpiece made with a central nozzle for supplying oxygen, with a conical, cylindrical and hexagonal sections, the inner mouthpiece being aligned placed in the holes of the outer mouthpiece with the formation of an annular gap, the output portion of which is formed by the mating conical surfaces of the conical hole and conically about the section of the outer and inner mouthpieces, respectively, and is made in the form of splined channels for supplying the combustible mixture, the slots of which have a rectangular profile and are evenly spaced along the conical surface of the inner mouthpiece, while the hexagonal section of the inner mouthpiece is located in the step of the larger diameter of the outer mouthpiece and is fastened with a threaded rod to the mixer moreover, the mixer is mated with the torch head on a conical surface, and the outer mouthpiece is fastened to the head with a union nut, differing in m, that the outer diameters of the ends of the outer and inner mouthpieces are 5–6 and 2.5–3 times respectively the output diameter of the cutting oxygen supply nozzle, which is 4.5–5.5 times less than the axial height of the conical section of the inner mouthpiece, s the angle of inclination of the conical surface to the axis of the mouthpieces, equal to a range of 0.1 ÷ 20 °, while the diameter of the describing circle of the hexagonal section of the inner mouthpiece corresponds to the diameter of the step of a larger diameter of the cylindrical hole of the outer mouthpiece. ! 2. Replaceable insert for a gas torch

Description

The device relates to gas cutting and can be used for cutting metals, as well as for cutting profits, stripping castings, cutting rolled products and large workpieces, scrap and scrap, as well as for removing defects in castings and forgings.

Intra-nozzle cutting torches are much safer to use than injection torches, which is associated with the mixing of gases directly in the liner. In the event of a reverse impact, only the mouthpiece, which is a replaceable element, fails, while maintaining the operability of the valve group located in the barrel.

Known replaceable collapsible inserts for cutters with intraspersonal mixing (see US Pat. RU 2095209, publ. 30.01 1998 (1) or US Pat. RU 2149085, publ. 14.06. 2000 (2)). The liners contain an inner mouthpiece with a central nozzle for supplying oxygen and coaxially surrounding its outer mouthpiece. The mouthpieces in the devices (1), (2) form an annular gap in communication with the output channels of the head mixer. The output part of the gap is made in the form of spline channels for supplying a heating combustible mixture, which are formed by coaxial conjugate cylindrical sections of the mouthpieces. The slots of the channels have a rectangular profile and are made in the outer cylindrical surface of the inner mouthpiece. In the cutter (1), the mixer can be paired with the head, both on a conical surface and on a plane, and in the cutter (2), a variant of pairing the mixer with the head on the plane is proposed.

In the device (1), to perform the required operating modes, a set of interchangeable inserts is used, with the parameters of the mating mouthpieces selected according to experimentally selected ratios of the total areas of the input channels of the supply of heating oxygen and combustible gas, with respect to the parameters of the input and output sections of the channel of supply of the combustible mixture and taking into account the ratio of the input total area of the components of the mixer. At the same time, the ratio of the conditional diameter of the spline channels for supplying the combustible mixture of the inner mouthpiece to the length of the conical section of the channel for supplying cutting oxygen is proposed. To select operating modes in device (2), the ratio of the total cross-sectional area of the spline channels for supplying the combustible mixture to the maximum cross-sectional area of the outlet conical section of the cutting oxygen supply channel is experimentally selected and the parameters of the mixers for different combustible gases are brought into correspondence.

However, both in (1) and (2) devices, the choice of parameters of the mouthpieces of the inserts was made without taking into account the critical operating temperatures, and with increased thermal loads, burnouts of the internal mouthpiece, reverse shocks and emergency situations are not excluded. In addition, the location of the spline channels on the cylindrical mating surfaces of the mouthpieces complicates the alignment of the mouthpieces during assembly.

The closest analogue is a removable insert for a gas cutter containing a hollow outer mouthpiece, a cylindrical hole of which is made with a step of a larger diameter and communicated with a conical hole, an inner mouthpiece made with a central nozzle for oxygen supply, with a conical, cylindrical and hexagonal sections, the inner mouthpiece coaxially placed in the holes of the outer mouthpiece with the formation of an annular gap, the output portion of which is formed by the mating surfaces of the conical hole I and the conical section, respectively, of the outer and inner mouthpieces, and is made in the form of splined channels for supplying the combustible mixture, the slots of which have a rectangular profile and are evenly spaced along the conical surface of the inner mouthpiece, while the neck of the tiger section of the inner mouthpiece is located in the step of a larger diameter of the outer mouthpiece and is fastened with mixer threaded rod, and the mixer is mated with the torch head on a conical surface, and the outer mouthpiece is fastened to the head with a union nut (with . Pat. RU 2324579, publ. 2007) (3).

In this device, the cutting conditions are set with replaceable mouthpieces, with an experimentally selected ratio of the following parameters: the ratio of the total diameters of the calibrated holes for supplying, respectively, combustible gas and heating oxygen of the mixer to the total diameter of its injection chambers and to the nominal diameter of the spline channels; the width of the slots and their height are taken into account.

However, as in the analogs described above, the dimensions of the tube of the inner mouthpiece are selected without taking into account critical temperatures. This leads to a decrease in the physicomechanical properties of the liner, and at elevated temperature loads (the temperature of the heating fuel mixture ≈2800 ° С) leads to thermal destruction of the inner mouthpiece with its burnouts, as well as to reverse shocks and emergency situations. Burn out even mouthpieces made of expensive heat-resistant copper.

The objective of the proposed technical solution is to reduce the cost of the liner and its maintenance, while improving reliability, eliminating burnout of the inner mouthpiece and increasing the service life, reducing the likelihood of back impacts, improving the quality of the combustible mixture and improving the quality of the cut while expanding the operational capabilities.

To solve the problems in a removable insert for a gas cutter containing a hollow outer mouthpiece, a cylindrical hole of which is made with a step of a larger diameter and communicated with a conical hole, an inner mouthpiece made with a central nozzle for oxygen supply, with conical, cylindrical and hexagonal sections, the inner mouthpiece is coaxially placed in the holes of the outer mouthpiece with the formation of an annular gap, the outlet portion of which is formed by the mating surfaces of the conical the aperture and the conical section of the outer and inner mouthpieces, respectively, and are made in the form of spline channels for supplying the combustible mixture, the slots of which have a rectangular profile and are evenly spaced along the conical surface of the inner mouthpiece, while the hexagonal section of the inner mouthpiece is located in the step of the larger diameter of the outer mouthpiece and fastened to the mixer threaded rod, and the mixer is mated with the torch head on a conical surface, and the outer mouthpiece is fastened to the head of the cap According to the utility model, the outer diameters of the ends of the outer and inner mouthpieces are 5–6 and 2.5–3 times respectively the output diameter of the cutting oxygen supply nozzle, which is 4.5–5.5 times smaller than the axial height of the conical section of the inner mouthpiece, at an angle of inclination of the generatrices of the conical conical surfaces of the mouthpieces to their axis, corresponding to a range of 0 ÷ 20 °. In addition, according to a utility model, the inner mouthpiece can be made of brass, and can also be made of copper, and the axial height of the removable liner is 1 ÷ 3 times the axial height of the conical section of the inner mouthpiece.

The technical result of the proposed solution consists in the selection of the sizes of the inner and outer mouthpieces, taking into account high temperature conditions, which allows to increase the reliability of work, improve the physical and mechanical properties and eliminate the destruction and burnout of the inner mouthpiece, and improve the heat exchange of the outer mouthpiece with the environment. And also in reducing the cost of the liner due to the manufacture of the inner mouthpiece not from copper, but from cheaper brass, in reducing the likelihood of back impacts with good cut quality; in extending the service life.

Figure 1 shows a structural diagram of a torch with an installed liner.

In Fig.2 shows a section of the liner along aa.

The replaceable insert comprises an outer mouthpiece 1, an inner mouthpiece 2, made with a central nozzle 3 for supplying cutting oxygen and formed by a conical 5, cylindrical 4 and hexagonal 6 sections. The outer mouthpiece is made with a cylindrical 7 and conical 8 holes. The inner mouthpiece is coaxially placed in the outer mouthpiece 1 to form an annular gap 9 for supplying a combustible mixture and having spline channels 10 at the outlet. The spline channels 10 are formed by the mating conical surfaces 11 of the conical hole 8 and the conical section 5 of the outer and inner mouthpieces, respectively. The slots 12 of the spline channels 10 are made along the outer surface of the inner mouthpiece 2 and have a rectangular profile. The cylindrical hole 7 of the outer mouthpiece 1 is made with a step 13 of a larger diameter, in which the hexagonal portion 6 of the inner mouthpiece 2 is placed. The hexagonal portion 6 is fastened to the mixer 14 of the head 15 by a threaded rod 16. The diameter of the nozzle 3 for supplying cutting oxygen is d. The end outer diameter of the tube of the inner mouthpiece 2 is D. The end outer diameter of the tube of the outer mouthpiece is D1. The diameter of the step 13 of the larger diameter of the cylindrical hole is D2. Angle α is the angle of inclination of the conical surfaces 11 relative to the axis of the mouthpieces. L is the axial height of the conical section of the inner mouthpiece 2. L1 is the axial height of the removable liner. In the proposed device, the mixer 14 is paired with the head 15 of the cutter on a conical surface. The outer mouthpiece 1 is fastened to the head 12 with a union nut 17.

The device is used as follows. From the mixer 14, the combustible mixture through the annular gap 9, formed by the outer 1 and inner 2 mouthpieces and having spline channels 10 at the outlet, enters the cutting zone in the form of a heating combustible mixture. The cutting oxygen enters the cutting zone through the central nozzle 3 of the inner mouthpiece 2. The work is based on heating the cutting line with a heating flame to the ignition temperature of the metal, followed by burning it in the cutting oxygen stream.

The thickness of the tubes of the inner and outer mouthpieces is increased so that the output outer diameters D, D1 of the ends of the outer and inner mouthpieces 1, 2 are 5–6 and 2.5–3 times respectively the output diameter d of the cutting oxygen supply nozzle 3, which is proposed to perform 4.5 ÷ 5.5 times less than the axial height L of the conical section of the inner mouthpiece, with an angle α of the taper of the generatrix of the mating surfaces relative to the axis of the mouthpieces, corresponding to a range of 0.1 ÷ 20 °. The experiments carried out at elevated temperatures allowed us to establish that the thickness of the tubes, including the inner mouthpiece, selected in this way virtually eliminates burnout and eliminates back impacts, which increases the service life of the interchangeable liner. This makes it possible to use brass, which is cheaper than copper, but close to copper in physical and mechanical properties: strength, corrosion resistance and thermal conductivity for the manufacture of an internal mouthpiece. In some cases, the inner mouthpiece can be made of copper.

In this case, the hexagonal portion 6 of the inner mouthpiece 2 is made with a diameter of the describing circle corresponding to the diameter D3 of the step of a larger diameter of the cylindrical hole of the outer mouthpiece. This ratio makes it possible to divide the annular gap 9 of the larger diameter into equal sections, and the flow of the combustible mixture passing through it is divided into equal parts in the annular gap, which contributes to uniform flow of the mixture into the cutting zone, reduces the turbulence of the flow, improves the quality of the combustible mixture and the quality of cutting.

An increase in the diameter of the tube of the outer mouthpiece allows for a more rational heat exchange of the heating mixture with the environment, eliminates back impacts. At the same time, the manufacturability of the device is increased, its cost, operating costs are reduced, which leads to increased customer demand.

All this, together with the implementation of a removable insert of various axial heights, 1 ÷ 3 times the axial height of the conical section of the inner mouthpiece, allows you to expand the use of the proposed model of the replaceable insert for high-quality and reliable performance of a variety of gas cutting work.

The technical and economic effect of the device is to reduce the cost of the insert and its maintenance, while improving reliability, eliminating burnout of the inner mouthpiece and increasing the service life, reducing the likelihood of back impacts, improving the quality of the combustible mixture and improving the quality of the cut while expanding the operational capabilities.

Claims (4)

1. A replaceable insert for a gas cutter containing a hollow outer mouthpiece, a cylindrical hole of which is made with a step of a larger diameter and communicated with a conical hole, an inner mouthpiece made with a central nozzle for supplying oxygen, with a conical, cylindrical and hexagonal sections, the inner mouthpiece being aligned placed in the holes of the outer mouthpiece with the formation of an annular gap, the output portion of which is formed by the mating conical surfaces of the conical hole and conically about the section of the outer and inner mouthpieces, respectively, and is made in the form of splined channels for supplying the combustible mixture, the slots of which have a rectangular profile and are evenly spaced along the conical surface of the inner mouthpiece, while the hexagonal section of the inner mouthpiece is located in the step of the larger diameter of the outer mouthpiece and is fastened with a threaded rod to the mixer moreover, the mixer is mated with the torch head on a conical surface, and the outer mouthpiece is fastened to the head with a union nut, differing in m, that the outer diameters of the ends of the outer and inner mouthpieces are 5–6 and 2.5–3 times respectively the output diameter of the cutting oxygen supply nozzle, which is 4.5–5.5 times less than the axial height of the conical section of the inner mouthpiece, s the angle of inclination of the conical surface to the axis of the mouthpieces, equal to a range of 0.1 ÷ 20 °, while the diameter of the describing circle of the hexagonal section of the inner mouthpiece corresponds to the diameter of the step of a larger diameter of the cylindrical hole of the outer mouthpiece. 2. A replaceable insert for a gas cutter according to claim 1, characterized in that the inner mouthpiece is made of brass. 3. A replaceable insert for a gas cutter according to claim 1, characterized in that the inner mouthpiece is made of copper. 4. A replaceable insert for a gas cutter according to claim 1, characterized in that the axial height of the replaceable insert is 1 ÷ 3 times greater than the axial height of the conical section of the inner mouthpiece.