RU78290U1 - DEVICE FOR GAS-FLAME TREATMENT OF MATERIALS - Google Patents

Abstract

The proposed utility model allows to simplify the design of the device for flame treatment of materials and to provide an injection scheme for the preparation of a combustible mixture. The technical result in the proposed utility model is achieved by creating a device for flame treatment of materials containing a gas supply tube with a head, a valve block, in the monolithic body of which gas supply channels, a through hole, and an injection channel formed by narrowing the through hole are made, while the through hole is on both sides the injection channel is connected to the gas supply channels and provided with a sealing element, and a mixing chamber, made in the form of a hollow part such as a body in growth, or partially or completely, located in the gas supply tube, wherein the opening of the mixing chamber is coaxial to the cylindrical injection channel, and the through hole has an annular cavity connected to the gas supply channel and formed by the end of the gas supply pipe and the outer surface of the mixing chamber

Description

The proposed utility model relates to mechanical engineering, and in particular, to a device for flame treatment of materials and can be used for gas cutting, welding, surfacing, stripping or other flame treatment of materials.

A device for gas-flame processing of materials is known, comprising a gas supply tube with a head and a valve block, in a monolithic body of which gas supply channels and a through hole with a small passage section are connected, connected to a valve seat for oxygen supply (see Patent PM of the Russian Federation No. 47075, cl. F23D 14/00, 2005).

In this case, the through hole is located tangentially with respect to the gas supply tube, which ensures high-quality preparation of the combustible mixture (oxygen + combustible gas) inside the gas supply tube.

The device is simple in design and, accordingly, low cost in manufacturing.

However, the operation of the known device leads to emergency situations associated with the ignition of a combustible mixture formed in the system (including explosions).

This is due to the fact that the direction of the oxygen stream in the through hole does not coincide with the direction of the further movement of the combustible mixture in the gas supply tube.

Since the oxygen pressure during gas-flame processing is always higher than the pressure of the combustible gas, in the known device, when the oxygen jet is tangentially supplied, the pressure in the zone of oxygen supply to the gas supply pipe will be higher than the pressure in other parts of the gas supply pipe, which when opening the device valves

will lead to a gradual "pumping" with oxygen (a combustible mixture) of the entire gas system connected to the device (including the gas main and a cylinder with combustible gas).

The closest in technical essence to the proposed technical solution is a device for flame treatment of materials containing a gas supply tube with a head and a valve block, in a monolithic body of which there is a through hole and gas supply channels, while an injector with an injection channel is installed in the through hole (see patent China CN 1690514).

In a known solution, the surface of the through hole is a body of revolution, the axis of which coincides with the axis of the gas supply tube.

In the known device, the direction of oxygen movement along the injection channel coincides with the movement of the gas mixture in the gas supply tube.

The known device is devoid of the above disadvantages. However, this solution has disadvantages:

- high cost, because it requires the manufacture of a separate expensive parts - injector.

- it is necessary to ensure reliable internal tightness of the device due to the high-precision machining of the through hole in the monolithic body of the valve block (in particular, the seat for the injector).

The tasks solved by the proposed utility model are to simplify the design of the device for flame treatment of materials, which allows to provide an injection circuit for preparing a combustible mixture, as well as reducing the complexity of maintenance.

The technical result in the proposed utility model is achieved by creating a device for flame treatment of materials containing a gas supply tube with a head, a valve block, in

the monolithic body of which has gas supply channels, a through hole, and an injection channel formed by narrowing the through hole, while the through hole on both sides of the injection channel is connected to the gas supply channels and provided with a sealing element, and a mixing chamber made in the form of a hollow part such as a body of revolution, and partially or completely, located in the gas supply tube, while the hole of the mixing chamber is coaxial to the cylindrical injection channel, and the through hole has a ring a cavity connected to the gas supply channel and formed by the end of the gas supply tube and the outer surface of the mixing chamber

Performing the entire head, gas supply tubes and valve block housing simplifies the assembly and maintenance of the proposed valve block device.

The supply of the proposed device with an additional tube for supplying cutting oxygen to the head and the cutting oxygen valve allows to expand the technological capabilities of the proposed device.

When using the inventive device, a technical result is achieved due to the fact that the device does not have a separate part - an injector, but the injection effect is achieved through the use of the injection channel in the form of a narrowing of the through hole in the monolithic body of the valve block connected to both sides of the injection channel with gas supply channels and hermetically sealed on one side.

The essence of the proposed utility model is illustrated by the following description and drawings, where

figure 1 shows a General view of a device for flame treatment of materials;

in Fig.2 a section of Fig 1 along the valve block,

figure 3 is a section of the cutter along aa.

A device for gas-flame processing of materials contains a gas supply tube 1, a head 2 (with replaceable mouthpieces), a valve block 3, in the monolithic body 4 of which a through hole 5 is made, gas supply channels 6 and 7, a cylindrical injection channel 8 formed by narrowing the through hole 5.

The entire surface of the through hole 5 is a body of revolution, the axis of which coincides with the axis of the cylindrical injection channel. In this case, the through hole 5 on both sides of the injection channel 8 is connected to the gas supply channels 6, 7 and hermetically closed from the side opposite to the connection to the housing 4 of the gas supply tube 1.

The proposed device comprises a mixing chamber 9, made in the form of a hollow part such as a body of revolution, which is placed in the gas supply tube 1. The opening of the mixing chamber 9 is located coaxially with the cylindrical injection channel 8. The tightness of the through hole 5 is provided by a sealing element 10 (for example, a screw), installed in the through hole 5 of the housing 4 of the valve block 3. The sealing screw 10 is provided with an annular groove in which a sealing rubber ring 17 is installed.

The device comprises a tube 11 for supplying cutting oxygen to the head 2, a cutting oxygen valve 12, and a valve for combustible gas 13 and a valve for heating oxygen 14 mounted in the valve block 3.

In the proposed device, the gas supply tube 1, head 2, and the housing of the valve block 4 are made integrally, for example, in the form of a solid soldered design.

In the through hole 5 has an annular cavity 15 formed by the end of the gas supply tube 1 and the outer surface of the mixing chamber 9 and connected to the gas supply channel 7. This provides

the connection of the through hole 5 with the gas supply channels 6 and 7 on both sides of the injection channel 8.

At the end of the mixing chamber 9, which enters the through hole 5, a groove 16 is made.

A device for flame treatment of materials works as follows.

When you open the valve of the heating oxygen 14, oxygen under excessive pressure through the gas supply channel 6 enters the through hole 5 in the housing 4, and accelerates through a narrow cylindrical injection channel 8.

At the inlet to the mixing chamber 9, the passage section of the gas channel sharply increases, and due to the injection effect (after a sharp expansion of the gas stream, the pressure drops), a vacuum is created there.

After opening the valve for combustible gas 13, combustible gas (for example, acetylene) enters the annular cavity 15 through the channel 7, then it is sucked into the rarefaction zone through the groove 16 (the beginning of the mixing chamber), and then, being carried away by the injection stream, mixes with oxygen, passing through the zone turbulence in the mixing chamber 9, in which a combustible (oxygen-acetylene) mixture is formed.

The combustible mixture then flows into the gas supply pipe 1 and through it to the head 2.

When igniting a combustible mixture, a torch (heating flame) arises at the head output.

To ensure cutting (for example, a steel sheet), after sufficient heating by the heating flame of the insertion point, the valve of the cutting oxygen 12 is opened.

Oxygen through the tube 11 enters the head 2, from which through the nozzle of the mouthpiece 17 enters the cutting zone, providing the process of intense oxidation of steel and thereby the cutting process.

In the inventive device for gas-flame processing of materials, a traditional injection circuit is used, which is used in the vast majority of similar gas-flame devices (gas-oxygen torches and burners).

In the proposed utility model, the injection unit is formed in the through hole 5 by the surfaces of the mixing chamber 9, the gas supply pipe 2 and the monolithic body 4 of the valve block 3. The cylindrical injection channel 8 is formed by narrowing the through hole 5.

Thus, in the claimed design there is no separate expensive part - the injector, but at the same time there is a set of all design features inherent in the traditional injection unit.

The performance of the proposed device for flame treatment of materials is confirmed by testing prototypes.

When testing prototypes (torches and burners), the ratio of the inner minimum diameter of the mixing chamber to the diameter of the cylindrical injection channel was established in the range of 1.5-14.0, at which the injection effect was observed.

The optimal range for the ratios of the indicated diameters was selected 1.9-5.5. Outside of this range, the heating flame may be unstable.

In the tests, acetylene and a propane-butane mixture were used as combustible gas (over a wide range of operating pressures of oxygen and combustible gas).

The proposed device is convenient in the maintenance of the injection unit. If necessary, clean the cylindrical injection channel 8, it is enough to unscrew the sealing element 10. The cleaning of the cylindrical injection channel 8 is carried out through the through hole 5.

After cleaning the cylindrical injection channel 8, it is necessary to reinstall the sealing element 10.

Claims (3)

1. A device for gas-flame treatment of materials containing a gas supply tube with a head, a valve block, in the monolithic body of which gas supply channels are made, a through hole and an injection channel formed by narrowing the through hole, while the through hole on both sides of the injection channel is connected to the gas supply channels and equipped with a sealing element, and a mixing chamber made in the form of a hollow part such as a body of revolution and partially or completely placed in the gas supply tube, at m aperture of the mixing chamber is injected coaxially cylindrical channel, and the through hole has an annular cavity coupled to the gas feed duct and an end face formed by a gas supply tube and the outer surface of the mixing chamber. 2. The device according to claim 1, comprising a head, gas supply tubes and a valve block housing made integrally. 3. The device according to claim 1, further comprises a tube for supplying cutting oxygen to the head and a cutting oxygen valve.