DE1047364B - Acetylene generator - Google Patents

Description

Acetylene developer In the main patent 958 329 there is an acetylene developer described, in which the incidence shaft, development chamber, gas dome, hood and Immersion tube existing part of the developer so in the as a water reservoir of a water barrier serving boiler is built in that when the inlet shaft is depressurized the Gas flowing back from the gas collector forms a water seal in the immersion tube, which prevents gas from escaping into the open when the carbide container is opened.

The developer and gas collector are spatially separated from one another and are connected to each other by a pipeline.

Such a spatial separation has disadvantages; once is the space requirement undesirably large, on the other hand there are controls for the water motor on the gas collector, whose pipelines have to be led over long distances to the developer.

In addition, the developer described lacks an expedient device to remove the carbide residues, which mainly consist of ferro-silicon, a product that is grainy, hard and specifically heavy. There is therefore a Need for a small footprint developer who owns a facility which enables the removal of the carbide residues without the air in the developer can occur and without having to operate shut-off valves or slides, which always cause problems with the seal with granular material to be conveyed.

According to the present invention, this makes the space requirement essential reduces the fact that the gas collector is placed on the sealing water tank. In the Sealing water tanks are built in: the development chamber with gas dome, the Hood, dip tube and riser tube, the latter four parts in the Gas collector protrude. The gas space of the floating bell stands through the riser pipe in connection with the gas space of the sealing water tank.

The carbide container and the manhole are located outside the sealing water container. The gas is discharged through a pipe that connects to the gas space of the sealing water container Connection has. The lime sludge drains through a pipe that goes into the development chamber protrudes. The outlet of this pipe can be much higher than the carbide filling lie. When the carbide container is opened, the inlet shaft is depressurized; despite this no development water can be pressed up to the carbide filling because in the dip tube forms a water seal that prevents acetylene from flowing over Prevents gas collector in the gas dome and the development chamber. The developer owns So in spite of the space-saving design and one that is much cheaper to manufacture Form the features of the main patent.

The idea of the invention realized in the main patent, through use a dip tube automatically separates the gas chambers of the gas bell and gas dome the application enables it to be brought about as soon as the inlet shaft is depressurized a new type of device for removing carbide residues. The back Extended development chamber receives a trough downwards, ferrosilicon chamber called, a closable nozzle at the top. In the ferrosilicon chamber a pot with a handle and a handle is used, in which the carbide residues are filled by a The agitator screw located in the development chamber can be conveyed into it. To remove of the filled pot only the lid needs to be opened, then the basket can be grasped by the handle and lifted out. The water lock in the immersion tube prevents here too, as in the manhole, a rise in the development water. the Advantages of this device over known designs are that no lock is necessary with gate valves or valves, which is the case with ferrosilicon often not tight, that no air can penetrate into the developer that the removal of the carbide residues is possible when the gas collector is full and that this work requires a minimum of time. Plus, this facility is cheap to manufacture.

In the drawing is an embodiment of such a developer shown, in Fig. 1 and 2 in the state of gas development (gas bell rises) and in Fig. 3 and 4 with the open. Carbide container and open neck (Gas bell pushes water up in the immersion tube); Fig.5 shows the removed pot for ferrosilicon (Figs. 3 and 4 are side views drawn in section).

The developer consists of sealing water container 1 with water level test cock 2, development chamber 3, gas dome 4 with hood 5, inlet shaft 6 with carbide container 7, charging device 8, immersion pipe 9, riser pipe 10, lime sludge discharge pipe 11, ferrosilicon chamber 12, ferrosilicon pot 13, nozzle 14, water level inlet 15 and gas outlet 16. The gas collector 17 with a floating gas bell 18 and water level test cock 19 is located on the sealing water container 1.

The sealing water tank 1 is filled with water up to the test tap 2, the gas collector 17 in a pressureless state up to the test tap 19 and the development chamber 3 in the unpressurized state up to half the height of the nozzle 14.

The carbide arrives from the carbide container 7 via the charging device 8 through the incidence chute 6 into the development chamber 3, where it is gasified. Simultaneously water is supplied through pipe 15.

The acetylene generated rises in the gas dome 4 and the hood 5, flows through the immersion tube 9, which is immersed in the sealing water of the container 1 the gas space of the container 1 and passes through the riser pipe 10 under the gas bell 18. This rises and, due to its weight, creates the gas pressure that occurs with a floating Gas bell is constant to a few millimeters WS.

The acetylene reaches the point of use via gas outlet 16. The thin one Lime sludge flows off through pipe 11. The residues from the carbide, which in the main consist of the specifically heavy ferrosilicon, are replaced by one in the development chamber 3 located, not shown agitator screw conveyed to the rear and fall into the pot 13. When it is full, it must be lifted out and emptied.

If the carbide container 7 is opened for the purpose of refilling carbide, so becomes despite the fact that the carbide tank is below the water level of the desludging pipe 11 is, no developing water is pushed up to the carbide charge 8, because, as Figs. 3 and 4 show, the acetylene returning from the gas collector the sealing water of the container 1 presses and thereby a water seal in the immersion tube 9 forms, which the gas pressure of the gas bell 18 can not overcome. In the manhole 6 and in the nozzle 14 the water rises only slightly because only a limited one Amount of water is available, namely that enclosed in the gas dome 4. The water level in this sinks down to the pressure equalization in the three rooms: Inlet shaft 6, Gas dome 4 and nozzle 14. If the lid of the nozzle 14 is opened, the ferrosilicon pot 13, so no water escapes here either, despite its depth Location and although the gas collector 17 is under pressure.

Claims (2)

PATENT CLAIMS: 1. Acetylene developer according to patent 958 329, thereby characterized in that the gas collector (17) is mounted on the sealing water container (1) is and forms a unit with developer (3-16) and gas collector (17). 2. Acetylene generator according to claim 1, characterized in that the development chamber (3) on the dem Incidence shaft (6) opposite end with a ferrosilicon chamber (12), the Ferrosilicon pot (13) and the nozzle (14) is provided.