DE2948777A1 - Autogenous flame cutting, esp. using oxy-acetylene - where air is added to heating flame to ensure adequate preheating of thick workpieces - Google Patents

Abstract

The workpiece is first heated, in the region to be cut, by a heating flame, which consists of oxygen mixed with a fuel gas; and the combustion of the mixt. is restricted by adding an exactly dosed amt. of another gas (I). After this heating operation, a jet of cutting oxygen is used to cut the workpiece. Gas is pref. air or compressed air; and is added to mixt. before the latter is ignited. The pref. burner nozzle has an axial channel fed with cutting oxygen and surrounded by concentric channels through which the gas mixt. flows; channels possess inlets for gas (I), which enters channels via suction. The addn. of gas (I) increases the length of the heating flame so thick workpieces are preheated to an adequate depth prior to cutting via jet. The result is that flame cut edges of high quality are obtd.

Description

Process and cutting nozzle

for oxy-fuel cutting The invention relates to a method for Oxy-fuel cutting, in which the workpiece to be cut is passed through one of a Heating gas mixture of fuel gas and heating oxygen fed heating flame is heated and is burned by supplying heating oxygen in the area of the interface, and a flame cutting nozzle for carrying out the method according to the invention.

With flame cutting, the material to be cut is at the reaction point heated to ignition temperature at which it spontaneously burns with oxygen. The ignition temperature must be below the melting temperature of the material. The heating flame is used to compensate for heat loss through heat dissipation and heat radiation. When cutting it has the task of bringing the material to the ignition temperature.

The heating flame has a decisive influence on the quality of the Flame cut. For example, the heating flame must not be too short so that it can a protective effect for maintaining the required purity of the burning acid fabric can unfold; otherwise the cutting performance will be reduced. This condition is according to a proposal according to the previously known DE-OS 19 27 523 thereby bill worn that between the cutting oxygen jet and the heating gas jet, a protective gas jet is blown in.

A disadvantage of this known fast burning process is that in particular In the case of flame cuts on workpieces more than 130 mm thick, the heating flare is not used has sufficient depth or the flame temperature is too high, so that the workpiece surface melts.

The present invention is therefore based on the object of a method of the type described at the outset that can be developed through a sufficient depth force the eizflarrJile and a good quality of the flame cuts even with thick workpieces excels.

This object is achieved according to the invention in that the heating gas mixture a precisely defined amount of a combustion-inhibiting gas is supplied.

In the following, the term "flame cutting" is intended to include both the actual Include cutting process as well as the so-called piercing at the beginning of cutting. According to the invention, the gas mixture of oxygen and fuel gas is replaced by a combustion-preventing Gas "diluted". For example, nitrogen, noble gases, Carbon dioxide in question. The dilution causes the electric flame to last longer and at the same time gets colder. In this way, the workpiece surface is melted during the flame cutting process prevented and at the same time sufficiently warmed the cutting gap. A penetration of This effectively prevents cold air from entering the cutting gap. It's an essential one Feature of the present invention that the flame retardant Gas is supplied in a precisely defined amount, because only through the exact dosage can be with the inventive method regardless of the thickness and the Material of the workpiece to be cut achieve consistently good results.

The combustion-inhibiting gas can be used both in front of the cutting nozzle are fed in the burner, either before or after the mixing point of Heating oxygen and fuel gas, as well as in the cutting nozzle itself or at the outlet the cutting nozzle.

Both through the slow combustion and through the reheating A flame cut of high quality results in the cutting gap. By extending it The flame can also be used as fuel gas for flame cuts on thick workpieces use, which is not suitable for this application because of its short, hot flame was. Acetylene has the advantage of being very high compared to other gases Flame output, which results in short preheating times.

Another advantage that emerges from the subject matter of the present Invention results, is to reduce the risk of reignition of the fuel gas mixture the lowering of the oxygen concentration in the heating gas.

It has been shown that it is beneficial to use the anti-burn Gas to the heating gas after the mixing of fuel gas and heating oxygen, but before your To supply the ignition point of the gas mixture.

According to a preferred embodiment of the subject matter of the invention the combustion-inhibiting gas is air or compressed air.

By using ut arise in the provision of the combustion retardant Gases no additional costs.

It proves to be expedient if in further development of the subject matter of the invention the combustion-inhibiting gas only after the workpiece has been heated to the ignition temperature is fed. During the heating of the workpiece to the ignition temperature, the so-called Cutting process, it is advantageous if the flame is very hot around the workpiece to heat quickly. The flame does not need particularly long in this section either because the cutting gap is not yet deep. Only when the workpiece has reached the ignition temperature has reached, so at the beginning of the actual flame cutting process, is according to the invention started feeding the combustion-inhibiting gas to the heating gas.

A flame cutting nozzle for carrying out the method according to the invention has a centrally arranged cutting oxygen nozzle, arranged concentrically to it Heating gas nozzles, feed openings for on the one hand cutting oxygen and on the other hand Heating oxygen and fuel gas, as well as the feed openings with the associated nozzles connecting channels for cutting oxygen and heating gas, with the heating gas channels are provided with further feed openings.

In particular, it proves to be expedient if, according to a further development of the subject matter of the invention, the further supply openings than over the circumference the cutting nozzle are distributed holes. The number of holes depends on the number of hot gas channels. As a rule, it flows into every heating gas duct at least one bore for supplying the combustion-inhibiting gas.

In a preferred embodiment of the Erfirx # unobject the holes open into the heating gas ducts at an angle of 35 to 550. at With this design, the heating gas flowing to the nozzles sucks in the gas to be supplied the injector principle. The angle is preferably approximately 450.

For the fuel gas and the heating oxygen, both two separate Feed openings may be provided, which are only in the cutting nozzle in a common Channel open, or the two heating gas components are already mixed via one Feed opening passed into the cutting nozzle.

In both cases there are additional feed openings in the cutting nozzle provided in the channel leading the heating gas before it emerges from the nozzle flow out. A combustion-inhibiting gas is fed in via these feed openings.

In another embodiment of the cutting nozzle according to the invention is instead of further feed openings to the hot gas ducts around the burner outlet arranged a suction ring. A combustion-inhibiting gas is released through the suction ring sucked in by the hot gas emerging from the cutting nozzle and mixes at the burner exit with this.

For this purpose, the suction ring is at a radial distance from the cutting nozzle arranged, wherein the annular gap formed between the cutting nozzle and suction ring serves to supply the combustion-inhibiting gas. The inner surface of the suction ring must be shaped in such a way that the cross-section of the annular gap has a narrowing (Injector principle).

It is also proposed that the suction ring in the axial direction is movable. If the front section of the cutting nozzle is conical, so the cross section can be adjusted by moving the suction ring in the axial direction change in a simple way.

Another, proposed in a further development of the subject matter of the invention It is possible to arrange the suction ring on the cutting nozzle without any space in between and in the suction ring to provide holes directed towards the burner outlet, through which the combustion-inhibiting gas is supplied.

According to a modification of the cutting nozzle according to the invention proposed that the feed openings open into a supply channel which is provided with a connector for supplying combustion-inhibiting gas.

This design is particularly useful when a different gas than Ambient air is supplied.

Further details of the invention are shown schematically with reference to FIG Examples of execution described.

The figures show: FIG. 1 a cutting nozzle according to the invention which Figures different devices for feeding the 2,3 u 4 combustion-retardant Gas.

A cutting nozzle 1 according to the invention is preferably used for machining of workpieces, such as sheet steel, with a thickness of more than 100 mm. the Cutting nozzle 1 according to Figure 1 is internal mixing, i.e. heating oxygen and fuel gas are mixed in the cutting nozzle 1. The cutting nozzle 1 has a central Hole 2 for guiding cutting oxygen 3. Concentric around this hole 2 channels 4 are executed in which the heating gas flows.

It is also possible instead of several separate channels to provide a continuous annular gap-shaped channel.

The heating gas consists of a mixture of heating oxygen 5, which is about a supply opening 6 and fuel gas 7, especially acetylene, via supply openings 8 is inserted into the cutting nozzle. The feed openings 5 and 8 open in the heating gas ducts 4, in which the two components of Mix the heating gas. According to the invention, further feed openings 9 are in FIG Cutting nozzle 1 is provided which open into the heating gas ducts 4. Via the feed openings 9, a combustion-inhibiting gas is supplied to the heating gas. This is suitable especially good air or compressed air, as this is available free of charge. In principle however, it is also possible to use another combustion-inhibiting gas such as Nitrogen, possible.

In the example shown, the feed openings 9 are bores executed, which open into the heating gas ducts 4 at an angle of approximately 450. on In this way, the combustion-inhibiting gas is absorbed by the suction effect of the flowing past Heating gas sucked in. For example there are 6 holes corresponding to the number of hot gas ducts each 1.2 mm ~ provided.

A precisely metered amount of gas is supplied through the bores. However, the number and diameter of the holes is not decisive for that Essence of the invention.

In principle, the subject matter of the invention can also be applied to other cutting nozzles transferred, in particular to nozzles for injector burners, in which the heating oxygen and the fuel gas are mixed in the burner.

When performing the torch cutting process according to the invention is preferably used during the initial cut, i.e. until the workpiece has reached the ignition temperature no combustion retardant gas is added to keep the heating flame so hot as possible to keep. Only when the ignition temperature of the workpiece has been reached a certain amount of combustion inhibitor is added to the heating gas or the heating oxygen Mixed in with the gas. The amount depends on the thickness and the material of the to separating workpiece, the purity of the heating oxygen and the fuel gas used. The more combustion-inhibiting gas is added and the stronger the heating oxygen diluted the longer and colder the heating flame becomes.

To change the amount of gas supplied, for example, some or all of the openings 6 can be completely or partially closable or one can not illustrated supply line to the openings 6 with a device for changing the cross section be equipped.

Figures 2, 3 and 4 each show the front portion of a Cutting nozzle, with analogous components having the same reference numerals as in FIG 1 are marked.

To the outlet 11 of the cutting nozzle 1 according to Figure 2 is according to the invention a suction ring 12 is arranged. The suction ring 12 is concentric to the cutting nozzle 1 at a radial distance from this. This creates between the suction ring 12 and Cutting nozzle 1 an annular gap 13.

The inner surface of the suction ring 12 has a convex curve, so that by the burner outlet 11 on the channels 4 at high speed escaping heating gas ambient air is sucked in according to the injector principle. the The amount of air supplied can be precisely metered over the cross section of the annular gap 13.

Because the front portion of the cutting nozzle 1 is conical is, can by moving the suction ring 12 in the axial direction of the cross section change easily.

In principle, it is also possible to place one directly on the cutting nozzle 1 adjacent suction ring to be provided, which is then directed towards the burner outlet 11 Feed openings is provided, these openings in turn leading to the burner outlet expand conically.

FIG. 3 shows a burner nozzle 1 which is similar to that of FIG 1 is equipped with holes 9 opening into the heating gas ducts 4. At this Nozzle, the bores 9 open into a common supply channel 14, which through a tunnel 15 applied annularly around the cutting nozzle 1 is formed. The tunnel is provided with a connection piece, not shown in the figure, for the supply of the combustion-inhibiting gas.

A modification of the cutting nozzle 1 according to FIG. 3 is shown in the figure 4: In this embodiment there is a supply channel 16 in the cutting nozzle 1 countersunk and closed with a sleeve 17. Here, too, is not shown Connection piece provided.

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Claims (10)

Claims 1. A method for oxy-fuel flame cutting, in which the workpiece to be cut by one of a fuel gas mixture of fuel gas and Heating oxygen-fed heating clamp is heated and by supplying cutting oxygen is burned in the area of the interface, characterized in that the heating gas mixture a precisely defined amount of a combustion-inhibiting gas is supplied. 2. The method according to claim 1, characterized in that the combustion-inhibiting Gas after the mixing of fuel gas (7) and heating oxygen (5), but before aem 2ntz; indentation point of the hot gas mixture is supplied. 3. The method according to claim 'or 2, characterized in that the the combustion-inhibiting gas is air or compressed air. 4. The method according to any one of claims 1 to 3, characterized in, that the combustion-inhibiting gas only after the workpiece has been heated to the ignition temperature is fed. 5. Cutting nozzle for performing the method according to one of the Claims 1 to 4 with a centrally arranged cutting oxygen nozzle, concentric Heating gas nozzles arranged for this purpose, feed openings for cutting oxygen on the one hand and on the other hand heating oxygen and fuel gas, as well as the supply openings with the associated nozzles connecting channels for cutting oxygen and heating gas, thereby characterized in that the heating gas ducts (4) have further supply openings. 6. Cutting nozzle for performing the method according to one of the Claims 1 to 4 with a centrally arranged cutting oxygen nozzle, concentrically Heating gas nozzles arranged for this purpose, feed openings for cutting oxygen on the one hand and on the other hand heating oxygen and fuel gas, as well as supply openings with the associated nozzles connecting cans for cutting oxygen and heating gas, thereby sekennzeichret that a suction ring (12) is arranged around the burner outlet (11). 7. flame cutting nozzle according to claim 6, characterized in that the Ansaugrdilg (12) is displaceable in the axial direction. 8. Cutting nozzle according to one of claims 5 to 7, characterized in that that over the circumference of the 2renrschneiddüse (1) or the suction ring (12) distributed borings (9) are provided. 9. flame cutting nozzle according to claim 8, characterized in that the Bores (9) open into the heating gas ducts at an angle of 350 to 550. 10. Cutting nozzle according to one of claims 5 to 9, characterized in that that the feed openings (9) open into a supply channel (14,16), which with a connector for supplying combustion-inhibiting gas is provided.