RU2149085C1 - Cutter for oxygen cutting of metals - Google Patents

Abstract

FIELD: machine engineering, namely welding equipment for oxygen cutting. SUBSTANCE: cutter includes body with handle and regulation valves for feeding combustible gas, heating and cutting oxygen and head. Inlets of head ducts for feeding combustible gas, heating and cutting oxygen are joined with respective ducts of body, their outlets are joined through mixer mounted in head with annular duct. In mixer inlet ducts for feeding combustible gas are inclined relative to axis of duct for feeding cutting oxygen; inlet openings of ducts have the same areas and they are arranged concentrically relative to axis of duct for feeding cutting oxygen. When acetylene is used as combustible gas inclination angle of inlet ducts for feeding combustible gas is equal to 34 deg.30'- 35 deg.30'; when propane is used as combustible gas angle is equal to 34-36 deg. Annular duct of mixer is formed by coaxially arranged outer and inner mouthpieces. Inner mouthpiece has axial duct for feeding cutting oxygen with successively joined cylinder portion and cone portion; the last has large cone diameter at outlet. Lower cylindrical portion of inner mouthpiece has rectangular outlet ducts for feeding combustible mixture. Relation of total area of outlet ducts to maximum cross section area of outlet cone portion of duct for feeding cutting oxygen consists 1:(0.23-9.02). Such cutter allows to cut metallic parts with thickness up to 250 mm at high speed. EFFECT: enhanced reliability of cutting thick metallic parts, long useful life of cutter. 8 cl, 2 dwg

Description

 The invention relates to the field of mechanical engineering, namely to welding equipment for oxygen cutting of metals.

 Known cutter for oxygen cutting of metals, comprising a housing with a handle and control valves for supplying combustible gas, heating and cutting oxygen, a head with channels for supplying combustible gas, heating and cutting oxygen, the inputs of which are in communication with the corresponding channels of the housing, and the outputs are installed through the head a mixer with an annular channel formed by coaxially located outer and inner mouthpieces and having an inlet section and an outlet nozzle, while in the mixer the inlet feed channels of which the gas is made at an angle to the axis of the cutting oxygen supply channel, and the inner mouthpiece is made with an axial cutting oxygen supply channel formed by serially connected cylindrical section and a conical section with a large cone diameter at the exit (see RF patent N 2095209, IPC B 23 K 7 / 06, 1996).

 However, the known cutter for oxygen cutting of metals has insufficient reliability when cutting metal with a thickness of up to 250 mm, has insufficient cutting speed and insufficient durability.

 An object of the invention is to eliminate the noted drawbacks and create a cutter for oxygen cutting of metals with the necessary reliability when cutting metals with a thickness of up to 250 mm with a high cutting speed, as well as having the necessary durability.

The technical result is achieved in that in a torch for oxygen cutting of metals, comprising a housing with a handle and control valves for the supply of combustible gas, heating and cutting oxygen, a head with channels for supplying combustible gas, heating and cutting oxygen, the inputs of which are in communication with the corresponding channels of the housing, and exits - through a mixer installed in the head with an annular channel formed by coaxially located outer and inner mouthpieces and having an inlet section and an outlet nozzle, while the mixer inlet channels of the supply of combustible gas are made at an angle to the axis of the channel for supplying the cutting oxygen, and the inner mouthpiece is made with the axial channel for supplying the cutting oxygen formed in series with a cylindrical section and a conical section with a large cone diameter at the outlet, a distinctive feature is that in the mixer the inlet openings of the channels for supplying combustible gas are made of the same area with a concentric arrangement relative to the axis of the channel for supplying cutting oxygen, on the lower cylinder part-cylindrical internal die formed output channels for supplying a combustible mixture of a rectangular shape, wherein the ratio of the total area of the output channels to the area of the maximum cross section of the conical portion of the output flow of cutting oxygen duct is 1: (0.23 - 9.02). Moreover, when using acetylene as the combustible gas, the angle of inclination of the inlet channels of the supply of combustible gas is 34 ^° 30 '- 35 ^° 30', and the number of these channels is selected from 2 to 10, the output channels of the supply of the combustible mixture in the lower cylindrical part of the inner mouthpiece are made with dimensions of 0.5 x 0.5 mm, and the end surface of the outer mouthpiece is made smooth. Moreover, when using propane as a combustible gas, the angle of inclination of the inlet channels of the supply of combustible gas is 34 ^o - 36 ^o , and the number of these channels is selected from 3 to 12, the outlet channels of the supply of the combustible mixture in the lower cylindrical part of the inner mouthpiece are made with dimensions of 0.5 x 1.1 mm, and the end surface of the outer mouthpiece is made with four rectangular grooves located at an angle of 90 ^o . In this case, the inner mouthpieces are made replaceable. The torch head is made at an angle to the main axis of the torch. The cutting oxygen supply control valve is located vertically on the body, the combustible gas and heating oxygen supply control valves are located to the left or right of the cutting oxygen supply control valve. When performing a torch with an increased length of the supply pipes of the cutting and heating oxygen and combustible gas, it is equipped with an additional handle, covering them with the possibility of free movement along their entire length. And the cutting oxygen supply system is of lever type.

 Experimental tests of the proposed design of the cutter for oxygen cutting of metals showed that using all the distinctive structural elements created the design of the cutter for oxygen cutting of metals, which is highly effective in cutting various metals, including alloy steels up to 250 mm thick. In addition, the cutter has increased reliability and durability in various climatic zones. Moreover, in full-scale operating conditions, the cutter at all technological cutting conditions is easily controlled by the composition of the combustible mixture, the feed rate of the mixture and the distribution of the flame front.

 The invention is illustrated by drawings, where in FIG. 1 shows a general view of the proposed cutter, in FIG. 2 shows a cut of a torch in which the mixer and the head are mated on a flat surface.

 The cutter comprises a housing 1 with a control valve 2 for supplying cutting oxygen, a control valve 3 for supplying a heating oxygen and a control valve 4 for supplying combustible gas. The torch housing 1 comprises an oxygen supply nozzle 5, a combustible gas supply nozzle 6. The cutting oxygen supply tube 7, the heating oxygen supply tube 8 and the combustible gas supply tube 9 are coupled to the torch head 10 connected to the replaceable outer mouthpiece 11 with a union nut 12. The cutting oxygen supply channel 13, the heating oxygen supply channel 14, and the channel are made in the head 10. 15 supply of combustible gas. The replaceable outer mouthpiece 11 comprises a coaxial inner mouthpiece 16 which is threadedly connected to the mixer 17.

 The cutting oxygen supply channel 18 of the inner mouthpiece 16 is aligned with the central opening of the mixer 17 and the cutting oxygen supply channel 13 of the head 10. The inputs of the heating oxygen supply channel 20 and the combustible gas supply channel 21 of the head 10 through the mixer 17 are in communication with the annular channel 22 of the supply of combustible mixture, formed by the outer 11 and inner 16 mouthpieces. The torch head 10 is made with an annular combustible gas supply chamber 23 communicated by channel 15 to a combustible gas supply duct 21, and also with an annular heating oxygen supply chamber 24 communicated by channel 14 to a heating oxygen supply duct 20.

 The mixer 17 is provided with inlet channels 25 for supplying combustible gas, made at an angle to the axis of the channel 18 for supplying cutting oxygen, and inlet channels 26 for supplying heating oxygen, made concentric with respect to the axis of the channel 18 for supplying oxygen.

 The mixer 17 is made with a cylindrical mixing chamber 27 formed by an annular gap between the outer 11 and the inner 16 mouthpieces and ending with the outlet openings 27 for supplying the combustible mixture.

 The cutting oxygen supply channels 19, 13, 18 and 31 are made stepwise tapering, while the diameter of the channel 13 is less than the diameter of the channel 19, the diameter of the channel 18 is less than the diameter of the channel 13, and the diameter of the channel 31 is less than the diameter of the channel 18.

 On the lower cylindrical part 29 of the inner mouthpiece 16, output channels 28 for supplying a rectangular combustible mixture are made.

When using propane as a combustible gas, four grooves of a rectangular shape located at an angle of 90 ^° relative to each other are made at the end face 30 of the outer mouthpiece 11.

 The mixer 17 and the head 10 can mate in a plane, as shown in FIG. 2.

 The device operates as follows. When oxygen is supplied from the nozzle 5 and combustible gas from the nozzle 6, oxygen enters through the cutting oxygen supply pipe 7 and through the heating oxygen supply pipe 8, and combustible gas enters through the combustible gas supply pipe 9. The pressure of the cutting oxygen is set by the control valve 2, the oxygen heating valve 3 and the combustible gas valve 4, which throttle the pressure, providing the necessary flame composition.

 Through the corresponding tubes 7, 8 and 9, the cutting oxygen, heating oxygen and combustible gas are supplied to the corresponding channels of supply of cutting oxygen, heating oxygen and combustible gas of the torch head 10 and then to the corresponding channels 13, 14 and 15. From the outlet channel 14, heating oxygen enters the annular chamber 24 for supplying heating oxygen, and from the outlet 15, combustible gas enters the annular chamber 23 for supplying combustible gas of the mixer 17.

 From the annular chamber 24, the heating oxygen through the inlet channel 26 for supplying oxygen enters the cylindrical mixing chamber 27 of the mixer 17, where it is mixed with the injected combustible gas coming from the annular chamber 23 through the inlet channel 25. The combustible mixture formed in the cylindrical mixing chamber 27 passes through the outlet channels 28 to the surface of the processed material simultaneously with cutting oxygen, forming a flame for the penetration of the metal during its cutting.

Claims (8)

 1. Cutter for oxygen cutting of metals, comprising a housing with a handle and control valves for the supply of combustible gas, heating and cutting oxygen, a head with channels for supplying combustible gas, heating and cutting oxygen, the inputs of which are in communication with the corresponding channels of the housing, and the outputs are installed in a mixer head with an annular channel formed by coaxially located outer and inner mouthpieces and having an inlet section and an outlet nozzle, while the mixer has inlet channels for supplying combustible ha and made at an angle to the axis of the cutting oxygen supply channel, and the inner mouthpiece is made with an axial cutting oxygen supply channel formed in series by a cylindrical section and a conical section with a large cone diameter at the outlet, characterized in that the inlet of the combustible gas supply channels is made in the mixer of the same area with a concentric arrangement relative to the axis of the cutting oxygen supply channel, output channels n are made on the lower cylindrical part of the inner mouthpiece the supply of a rectangular combustible mixture, the ratio of the total area of the output channels to the maximum cross-sectional area of the output conical section of the cutting oxygen supply channel is 1: (0.23 - 9.02). 2. The cutter according to claim 1, characterized in that when using acetylene as a combustible gas, the angle of inclination of the inlet channels of the supply of combustible gas in the mixer is 34 ^° 30 '- 35 ^° 30', the number of these channels is selected from 2 to 10, the output channels the supply of the combustible mixture in the lower cylindrical part of the inner mouthpiece is made with dimensions of 0.5 x 0.5 mm, and the end surface of the outer mouthpiece is made smooth. 3. The cutter according to claim 1, characterized in that when using propane as a combustible gas, the angle of inclination of the input channels of the supply of combustible gas in the mixer is 34 - 36 ^o , the number of these channels is selected from 3 to 12, the output channels of the supply of the combustible mixture in the bottom the cylindrical part of the inner mouthpiece is made with dimensions of 0.5 x 1.1 mm, and the end surface of the outer mouthpiece is made with four rectangular grooves located at an angle of 90 ^o .  4. The cutter according to any one of paragraphs.1 to 3, characterized in that the inner mouthpieces are made replaceable.  5. The cutter according to any one of paragraphs.1 to 4, characterized in that the cutter head is made at an angle to the main axis of the cutter.  6. The cutter according to any one of claims 1 to 5, characterized in that the control valve for supplying cutting oxygen is vertically located on the housing, while the control valves for supplying combustible gas and heating oxygen are located to the left or right of the control valve for supplying cutting oxygen.  7. The cutter according to any one of paragraphs.1 to 6, characterized in that when it is performed with an increased length of the supply pipes of cutting and heating oxygen and combustible gas, it is equipped with an additional handle, covering these tubes with the possibility of free movement along their entire length.  8. The cutter according to any one of claims 1 to 7, characterized in that the cutting oxygen supply system is of lever type.

Images