DE530465C - Torch for autogenous cutting under water - Google Patents

Description

Torch for oxy-fuel cutting under water For oxy-fuel underwater cutting with the previously known underwater cutting torches is in a mixing chamber in Burner combines hydrogen or acetylene and oxygen to form a mixture, which a certain heat at the nozzle end of the burner head (for hydrogen at the Air measured about 25oö ° C) developed.

This heat is created by the application of cold cutting oxygen and non-rigid protective jackets made of cold oxygen or compressed air and through the exposed supply pipes cooling water reduced quite considerably, so that as a result of the small amount of heat remaining then stronger or riveted together Material cannot be warmed through sufficiently.

Also with the known underwater cutting torches with only one Heating nozzle through the protective jacket around the heating flame around the heating surface on the Interface limited, which has the consequence that the material to be cut also is only heated through at the interface according to the size of the heating surface.

Even if the pressure of the heating gases increases, there is no larger heating surface or greater heat generated as the mixed together in the mixing chamber are ready to burn Gases as such have to be consumed.

If acetylene is used instead of hydrogen, there is an increase in pressure the mixture is not possible at all, as it becomes explosive very easily. Because The danger of heating the hydrogen or acetylene is also evident up to now through pipes that are as exposed as possible, which are cooled by the water, or by using rigid protective jackets made of cold oxygen or Compressed air a cooling of the fuel gases provided, whereby the conductivity of the Underwater cutting torch is significantly reduced.

According to the invention, all these deficiencies are to be remedied by that liquid fuel is passed through within a plurality of gasification chambers electric heaters gasified and these gases from the gas chambers in a collecting space leads to the number of new oxygen supply pipes corresponding to the heating nozzles connected is. The cutting oxygen is in the usual way a central nozzle fed.

As a result of the arrangement of three heating nozzles around the cutting nozzle the diver can do a normal job on weaker material Heating nozzle for heating the interface and a second heating nozzle for vaporizing adjust the water.

If thicker material occurs, the diver can while cutting turn on the third heating nozzle, which then acts to evaporate the water. Through the other two heating nozzles he can then cut one of the material set a correspondingly larger heating flame. It should be expressly noted that the Arrangement of several heating nozzles surrounding the cutting nozzle is known per se and is not the subject of the invention.

The drawing represents an embodiment of the subject matter of the invention for example, namely Fig. z shows the burner in side view. Fig.2 shows the rolled-up burner in longitudinal section.

The liquid fuel is fed into a pipe w and is distributed there to four gas generators h, 12, l3, l4, in which it is gasified. The gases flow into the gas collecting chamber 1.

In the gas generators 11, 12, 13, 14 there are exchangeable insert cores cl, dl, e1, fl, which are provided with an asbestos cover to absorb residues during the gas evolution.

When valves r, q, p are opened, the fuel gas flows. from the gas collector 1 through pipes m, n, o and further through pipes f, g, h into the heating nozzles b, c, d.

By opening valves g1, hl, il, the oxygen flows through tubes t, u, v and further through tubes f, g, h into the heating nozzles b, c, d. After opening the valve x, s, the cutting oxygen flows through a pipe i into the cutting nozzle a.

The heat for gasifying the liquid fuels is developed by electrical heating elements x, y in the heating space k, which is enclosed by a jacket a1. The heating is adjustable.

A safety valve z opens and closes automatically when an overpressure is created by evaporation in the boiler room k.

The oxygen pipes, g1, hl, il receive their inflow from branch pipes from an oxygen supply line, not shown, in which a check valve is installed. Even. A check valve is installed in the non-illustrated feed line for the liquid fuel to the pipe w.

Claims (1)

PATENT CLAIM: torch for autogenous cutting under water, thereby characterized in that a plurality of electrically heated gasification chambers for liquid Fuel is in communication with a collection space for the gases with the Heating nozzles corresponding number of oxygen supply pipes is connected.