DE507126C - Kickback protection - Google Patents

Description

Kickback protection In practice, kickback protection is used throughout the so-called water seal is used. Is the same with the prescribed amount of water filled, their effectiveness is sufficient, although cases have occurred recently are where setbacks and explosions have occurred when the water supply is in perfect condition have caused. It is well known that such setbacks occur in the following ways: The welding torch, which is produced by the high-tension oxygen flowing through it has a sucking effect on the acetylene gas and thus into the burner pulls, loses this suction in whole or in part with increasing heating. The so-called backwater occurs. Now there is a risk that oxygen from Burner steps back into the acetylene line and there with the acetylene a highly explosive Forms gas mixture. A broken, glowing soot particle is enough to cause an explosion to cause.

Experience has shown that these explosions take place at some extensions of the pipelines. how such are especially formed from the water reservoirs. So it is much more correct to withdraw the oxygen under all circumstances to prevent, than that one allows this and only through the water reserve prevents any explosion from spreading to the developer. That such Explosions can still happen, was already mentioned at the beginning.

The greatest disadvantage, however, is that all the water supplies are permanent Maintenance by absolutely reliable supervisors is required because of the water level must be continuously monitored. For all of these reasons it is advisable to the water reserve by means of a mechanical, maintenance-free non-return device to replace. The already known devices of this type have so far been in the Practice cannot enforce, probably mainly because the same either is insufficient were sensitive or too complicated. It is quite clear that only an absolutely simple, robust design can cope with the demands of continuous operation, on the other hand, the construction must also cope with the slightest gas pressure fluctuations react.

The kickback device according to the invention should meet all requirements be able to cope with practice in every respect. With her there is opening and closing of the valve in the fuel gas line through one on one side under the oxygen pressure causes standing membrane, the other side of which forms the valve. The oxygen pressure exposed side of the membrane is smaller than that after opening the valve under the side of the membrane exposed to the fuel gas pressure.

In the drawing, the subject matter of the invention is illustrated by a cross-sectional diagram. a is the supply line from the developer, which opens into the valve chamber n. The opening is designed as a valve seat b. Immediately next to the inlet opening is the outlet opening d, which is also designed as a valve seat and leads via the diversion pipe k and the injector nozzle 1 to the pipeline m . This goes directly to the burner. The two valve openings b and d are closed by the asbestos plate c, which is fastened to the membrane c which divides the housing into two parts. Since the membrane would sag under its own weight, it can be pressed against the nozzle openings with the aid of the screw spindle h and the spiral spring g with a pressure that can be regulated within wide limits.

Channel i leads from valve chamber f located below the membrane to injector nozzle 1. Around this the line continues to yrt.

The mode of operation is as follows: If the oxygen cock on the burner is opened, a powerful suction effect occurs under the influence of the high-tension oxygen flowing through. A vacuum is created in the valve chamber f, as a result of which the membrane c is pulled down and the two valve openings b and d are opened. The pressure of the acetylene, which was previously only able to act on the valve cross-section, comes into play on the entire membrane surface when the valve is opened the slightest. This is very important because both valve openings are immediately opened completely and the fuel gas can flow through at full strength. In this way, a lack of fuel gas at the burner is avoided with absolute certainty. If, when the burner becomes hot, a reduction in the induced draft or a pressure increase in the line na occurs, it propagates through the channel i into the valve chamber f and pushes the membrane upwards, whereby the valve openings are closed and the gas passage is blocked. The same effect, of course to a correspondingly greater extent, occurs with a flashback.

The explosion wave is delayed by suitable, per se known measures, the interposition of a delay line, so that the valve openings b and d have long been closed when the explosion wave arrives at them. The explosion pressure can only have an effect on the cross-sectional area of the valve opening d and may be neglected compared to the pressure field which extends over the entire membrane area on the opposite side and which applies around 4 times the energy.

If the membrane becomes damaged, the valve cannot open, because the suction is effective both in the valve chamber f and in the chamber zt and as a result the membrane does not change its position.

Claims (1)

PATCNT APPLICATION: r. Kickback protection for autogenous welding equipment, the opening of the membrane, which is under oxygen pressure on one side and closing the valve in the fuel gas line, characterized in that that the other side of the adjustable membrane (c) forms the valve. z. Kickback protection according to claim i, characterized in that the exposed to the oxygen pressure Side of the diaphragm is smaller than the one after opening the valve under the fuel gas pressure standing membrane side.