RU108729U1 - OXYGEN METAL CUTTER - Google Patents

Abstract

 Cutter for manual oxygen cutting of metals, consisting of internal and external mouthpieces, handles with valves for adjusting the supply of cutting oxygen, heating oxygen, combustible gas, fittings for connecting oxygen, combustible gas, which is connected using pipes for supplying cutting oxygen, heating oxygen, combustible gas with a head, characterized in that in the handle of the torch there is a needle valve for adjusting the supply of cutting oxygen, the flywheel of which is made with a latch, and the axis of the holes of the supply of cutting oxygen, heating oxygen and combustible gas are located at an angle of 90 ° to the axis of the head with a ratio of the area of the cutting oxygen supply openings to the heating oxygen supply and combustible gas supply openings 1: 1.67, the cutting oxygen supply channel of the inner mouthpiece being made in the form of connected conical sections in a longitudinal section with the formation of a Laval nozzle with a ratio of the critical section to the length of the diffuser part of the channel 0.06-0.19, and the inner mouthpiece is connected to the outer mouthpiece on a conical surface with glom 8 ° 12 to form a combustible mixture supply channel slots.

Description

The utility model relates to mechanical engineering, namely to the flame treatment of metals and can be used in manual gas-oxygen cutting of metals.

Known cutter for oxygen cutting of metals in the description of the invention to the patent of the Russian Federation No. 2149085, IPC B23K 7/06, from 04.23.1999, publ. 05/20/2000, 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 through a ring mixer installed in the head a channel formed by coaxially located outer and inner mouthpieces and having an inlet portion and an outlet nozzle, while in the mixer the inlet channels of the supply of combustible gas are made at an angle to the axis of the channel and the supply of cutting oxygen, and the inner mouthpiece is made with an axial channel for supplying cutting oxygen, formed in series with a cylindrical section and a conical section with a large cone diameter at the outlet, characterized in that in the mixer the inlet openings of the combustible gas supply channels are made of the same area with a concentric arrangement relative to the axis of the cutting oxygen supply channel; on the lower cylindrical part of the inner mouthpiece, the output channels of the supply of the combustible mixture are made rectangular form, 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 of the supply of the combustible mixture in the lower cylindrical part of the inner mouthpiece is made with dimensions of 0.5 × 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 inlet channels of the supply of combustible gas in the mixer is 34-36 °, the number of these channels is selected from 3 to 12, the outlet channels of the supply of combustible mixture in the lower cylindrical parts of the inner mouthpiece are made with dimensions of 0.5 × 1.1 mm, and the end surface of the outer mouthpiece is made with four rectangular grooves located at an angle of 90 °.

4. The cutter according to any one of claims 1 to 3, characterized in that the inner mouthpieces are replaceable.

5. The cutter according to any one of claims 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 cutting oxygen supply control valve is located vertically on the body, while the combustible gas and heating oxygen control valves are located to the left or right of the cutting oxygen supply control valve.

7. The cutter according to any one of claims 1 to 6, characterized in that when it is carried out 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 these pipes 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.

Disadvantages: low metal cutting speed, insufficiently high service life.

The closest analogue is a cutter for oxygen cutting of metals in the description of the invention to the patent of the Russian Federation No. 2095209, IPC B23K 7/06 from 07.0.1996., Publ. 11/10/1997, containing coaxially located outer and inner mouthpieces, 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 through a mixer with an annular channel formed between the outer and inner mouthpieces and consisting from the inlet section and the outlet nozzle, in the inner mouthpiece there is made an axial cutting oxygen supply channel in communication with the cutting oxygen supply channel in the head, and the mixer is formed by input chambers heating oxygen and combustible gas in communication with the corresponding channels of the heating oxygen and combustible gas of the head, and a mixing chamber located at the outlet of these input chambers and communicated with the input section of the annular channel, characterized in that the ratio of the total area of the input chambers of the heating oxygen and combustible gas of the mixer to the area of the input section of the channel for supplying the combustible mixture and to the area of the output nozzle of the channel for supplying the combustible mixture 1: (2.3-11.2) :( 0.65-1.5), and the ratio of the area of the input chamber of the heating mixture oxygens to input the square fuel gas chamber mixer 1: (2: 3.5).

2. The cutter according to claim 1, characterized in that the mixer is mounted in the head and mated with it on a conical surface, while the inlet of the supply channel of the cutting oxygen of the inner mouthpiece is located above the openings of the inlet chambers of the heated oxygen and combustible gas of the mixer.

3. The cutter according to claims 1 and 2, characterized in that the axial channel for supplying cutting oxygen, made in the inner mouthpiece, is formed by serially connected cylindrical and conical sections, and the conical section has a larger cone diameter at the outlet, the angle of which is 0 6 °, and the ratio of the nominal diameter of the output nozzle of the channel for supplying the combustible mixture to the length of the output section of the conical channel for supplying the cutting oxygen of the inner mouthpiece is chosen equal to 1 18 40, the conditional diameter being equal to, where F is the area of the output nozzle to Nala supply the combustible mixture.

Disadvantages: low metal cutting speed, low quality of cut.

EFFECT: increased metal cutting speed, improved cutting quality, increased service life.

The technical result is achieved due to the fact that the cutter for manual oxygen cutting of metals, consisting of a handle with valves for adjusting the cutting oxygen, heating oxygen, combustible gas, fittings for connecting oxygen, combustible gas, which is connected by means of pipes for supplying cutting oxygen, heating oxygen, combustible gas with a head, characterized in that a needle valve for adjusting the cutting oxygen is installed in the handle of the torch as a cutting oxygen regulator, the flywheel of which is supplemented It is equipped with a lock for protection against turning, and the axes of the holes for supplying cutting oxygen, heating oxygen and combustible gas are located at an angle of 90 degrees to the axis of the head with a ratio of the area of the holes for supplying cutting oxygen to the holes for supplying heating oxygen and supply of combustible gas 1: 1.67, moreover, the supply channel of the cutting oxygen of the inner mouthpiece is made in the form of connected conical sections in a longitudinal section in the form of a Laval nozzle with a ratio of the critical section to the length of the diffuser part of the channel 0.06- 0.19, and the inner mouthpiece is connected to the outer mouthpiece on a conical surface with an angle of 8 degrees, forming with it 12 grooves-channels for supplying the combustible mixture.

In the closest analogue No. 2095209, the inner mouthpiece has a cutting oxygen supply channel formed by serially connected cylindrical sections and a conical section, as a result of which a step is formed, which leads to deterioration of the cutting quality and cutting speed. And in the claimed utility model, the cutting oxygen supply channel of the inner mouthpiece is made in the form of connected conical sections in longitudinal section in the form of a Laval nozzle with a ratio of the critical section to the length of the diffuser part of the channel 0.06-0.19, and the axis of the cutting oxygen supply holes heating oxygen and combustible gas are located at an angle of 90 degrees to the axis of the head with a ratio of the area of the cutting oxygen supply opening to the heating oxygen supply and combustible gas supply openings 1: 1.67, which leads to an increase The pressure of the combustible mixture. The inner mouthpiece connected to the outer mouthpiece on a conical surface at an angle of 8 degrees forms 12 grooves-channels for supplying the combustible mixture, which leads to faster heating of the metal, thereby increasing the cutting speed of the metal and improving the quality of the cut.

In analogue No. 2149085, the cutter is equipped with a cutting oxygen supply valve, the design of which does not provide the necessary reliability of the product due to the constant failure of the mounting of the flywheel with the valve stem. And in the claimed utility model, as a cutting oxygen regulator, a needle valve for adjusting the cutting oxygen is installed on the torch handle, the flywheel of which is additionally equipped with a lock for protection against turning, providing an increase in service life.

A comparative analysis of the proposed solution with the prototype allows us to conclude that the claimed utility model meets the conditions of patentability: it is new and industrially applicable.

The essence of the claimed utility model is illustrated by graphic materials, where:

The figure 1 shows the cutter assembly.

Figure 2 shows the design of the torch head.

The figure 3 shows the design of the needle valve adjust the cutting oxygen.

The cutting torch for oxygen cutting of metals consists of a handle 1, with a needle valve for adjusting the cutting oxygen 2 located on it, consisting of a flywheel 15, a fitting 18, a rod 16, a cone 17, a clamping nut 21, brass rings 19, a fluoroplastic ring 20, a retainer 22, a heating oxygen control valve 3 connected through channels (not shown) with an oxygen connection 5, a combustible gas adjustment valve 4, a combustible gas connection 6. The handle 1 is connected using cutting oxygen supply tubes 7, p the supply of heating oxygen 8, the supply of combustible gas 9 with the head 10 through the holes for supplying cutting oxygen 23, the supply of heating oxygen 24 and the supply of combustible gas 25, the diameters of which are related in the proportion 1: 1.67, whose axes are 90 degrees to the axis heads 10. On a conical surface, head 10 is connected with a mixer 14 and with an internal mouthpiece 13 connected to it, which is connected on an conical surface with an external mouthpiece 12 with an angle of 8 degrees and forms with it 12 grooves-channels for supplying a combustible mixture, , the supply channel of the cutting oxygen 26 is made in the form of connected conical sections in a longitudinal section in the form of a Laval nozzle with a ratio of the critical (throat) section to the length of the diffuser part of the channel 0.06-0.19.

The inventive utility model works as follows.

The hose from the combustible gas cylinder is connected to the flammable gas connection 6, and the hose from the oxygen cylinder is connected to the oxygen connection 5. To the cutting oxygen supply pipe 7, the heating oxygen supply 8, the combustible gas supply 9, through channels (not shown in the drawing indicated) in the handle 1 serves oxygen and combustible gas, which enter the head 10, where the injected combustible gas is mixed with injecting oxygen. Adjusting the pressure of oxygen and combustible gas occurs using the heating oxygen control valve 3 and the combustible gas control valve 4. Using the resulting torch, the metal is heated, and then, by rotating the flywheel 15 with the rod 16 and the clamp 22 of the needle valve for adjusting the cutting oxygen 2, a cutting oxygen and produce metal cutting. At the end of the cutting, the needle valve for adjusting the cutting oxygen 2, the valve for adjusting the heating oxygen 3 and the valve for adjusting combustible gas 4 are alternately closed.

Technical and economic effect.

The inventive utility model, has been used since 2000 at enterprises for the processing of ferrous scrap, installation of metal structures in the construction of roads, bridges, gas and oil pipelines, in the construction of residential and industrial buildings, in the housing and communal services in the Russian Federation - the central, southern and Siberian federal districts providing an increase in metal cutting speed, improved cut quality, increased service life.

Claims (1)

Cutter for manual oxygen cutting of metals, consisting of internal and external mouthpieces, handles with valves for adjusting the supply of cutting oxygen, heating oxygen, combustible gas, fittings for connecting oxygen, combustible gas, which is connected using pipes for supplying cutting oxygen, heating oxygen, combustible gas with a head, characterized in that in the handle of the torch there is a needle valve for adjusting the supply of cutting oxygen, the flywheel of which is made with a latch, and the axis of the holes of the supply of cutting oxygen, heating oxygen and combustible gas are located at an angle of 90 ° to the axis of the head with a ratio of the area of the cutting oxygen supply openings to the heating oxygen supply and combustible gas supply openings 1: 1.67, the cutting oxygen supply channel of the inner mouthpiece being made in the form of connected conical sections in a longitudinal section with the formation of a Laval nozzle with a ratio of the critical section to the length of the diffuser part of the channel 0.06-0.19, and the inner mouthpiece is connected to the outer mouthpiece on a conical surface with glom 8 ° 12 to form a combustible mixture supply channel slots.