DE136547C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

M 136547 CLASS 78 c.

flammable substances.

Certain substances are subject to ignition and explosion when finely ground or be atomized. Is oxygen or oxygen in the work area during this work. If there is air, it is formed as a result of the violent blows and shocks which the material exerts must suffer electrical power in order to be finely divided in factory operations Currents and sparks especially when the material to be shredded is like the Sulfur, still contains traces of gangue, which inevitably cause an explosion.

To avoid the risk of explosion when mixing the powder, water vapor is used or to conduct finely atomized water into the work area and thereby also achieves the desired effect. This procedure can now be used to mix the powder, but not to atomize the sulfur, because moistening causes such a weakening of the bumps and blows of the working wings, teeth and the like. That just a mixing of the previously sufficiently comminuted materials takes place. The impact and impact force that occurs when grinding and atomizing of the sulfur must be kept unsweatened, is then lost and the apparatus is a nebulizer so more useless than the presence of oxygen or even here. air and so that the risk of explosion is not excluded, if for any reason sparking should occur.

This known method can therefore only be used as a mixing method, but not as an atomization method hard materials such as sulfur can be applied to an almost imperceptible powder.

Such an explosion-proof sputtering process is now the subject of the present invention Invention. The risk of explosion is eliminated by the fact that the work is carried out in a closed container is in which a non-flammable gas, such as. B. carbonic acid is passed, which is very general should be designated as "inert gas", if necessary also from dried and cleaned combustion gases can exist.

This gas is passed with excess pressure during the atomizing or mixing process into the work area and displaced or. dilutes that in the latter Air, so that the gas-air mixture that now fills the working space prevents any ignition of the millbase and any penetration prevents new air from entering the work area.

If the sulfur is crushed in this inert gas, sparks are created, since the thrust and impact force of the working wings is not weakened by the gas should not be weakened either, but these sparks cannot ignite , since the sulfur only burns in the presence of a sufficient amount of oxygen, so can also explode. However, this oxygen is not available, but eliminated and is kept away during the entire work process.

If the gas or gas mixture to be used is lighter than air, then the

(2nd edition, issued on June 1st

Introduction of the former at the highest point, in the opposite case at the lowest part of the Grinding or mixing space happen, with the excess pressure of the gas the penetration of the Outside air through leaks in the container walls and when flaps are opened prevented.

It is true that various operations have already been carried out in cases where air is admitted would be harmful if executed in rooms which are filled with inert gases are, as is the case with Meyerhoffer's method, but this only allows add the materials to be shredded in portions (a few hundred grams at a time) treat, which are processed in a dry room, possibly in a gas atmosphere must, such as B. hygroscopic substances. If one now also assumes that this also applies to sulfur and such substances, which can ignite when pulverized in Meyerhof's apparatus can happen, although this would be of no apparent advantage, since sulfur is also used able to pulverize in the air in kilos without danger, there remains for the above Process, however, always consists of the very essential progress that one can also use the same in the factory-like operation Continuously continued atomization of the flammable materials with a daily Production of 100 double centners and above is able to carry out.

This is a scientific one, so far only in the laboratories with the Meyerhoff The principle applied to the apparatus is transformed into a process which is reflected in the Use industry directly in the factory, with great surprising advantage can be exploited.

For the sake of saving inert gas, it is advantageous for that which fills the working space To let pressurized gas pass through the working area in a continuous flow, that it escapes with the finished product, sucked in again by a fan and so on and is pushed into the work area again.

Then only those caused by leaks or when the filling flap is opened Supply of new grinding material to replace lost gas quantities.

With the help of this new method you can z. B. make such fine sulfur powder, that it goes through a silk sieve of 5000 meshes per square centimeter, a delicacy that because of the risk of inflammation, it has not yet been possible to achieve this.

Claims (2)

Patent Claims: 1. Method of grinding and sifting sulfur and other highly flammable substances Fabrics in continuous operations, characterized in that the air is continuously passed through the work area in the same displacing stream of an inert gas or gas mixture with a such pressures that the outside air penetrates into the working space is prevented for the purpose of preventing sparks and thus an ignition of the substances. 2. An embodiment of the under 1. marked Process consisting in that the inert gas or gas mixture is circulated through the working space, for the purpose of minimizing both the loss of gas and processed material to restrict.