DE560412C - Mills designed to remove electrostatic charges - Google Patents

Description

GERMAN EMPIRE

ISSUED ALK OCTOBER 1, 1932

REICH PATENT OFFICE

PATENT LETTERING

Vr 560412 CLASS 50c GROUP

K 12 30 j2 III 150 c

Date of the announcement of the grant of the patent:

. September

Patented in the German Empire on November 21, 1931

It is known to remove electrostatic charges by waves, and one has so far preferably radium or suitable radium compounds in the vicinity the electrostatically charged body brought.

In many cases, this means is not available for economic or technical reasons Well applicable, for example for unloading the ground material in mills. In such When grinding raw material with low electrical conductivity, electrostatic effects often occur Charges that cause caking of the ground material, especially the fine parts of it. That's why you have It has already been proposed to add additives of higher electrical conductivity to the grist to be added so that the potential differences that occur are compensated for as soon as possible.

However, the addition and redeposition of such substances causes additional costs question the economic viability of such proposals.

The invention proposes another way of doing this, and accordingly relates to a mill designed for the elimination of electrostatic charges, in which the What is new is that an optionally insulated beam or wall section in the grinding chamber is arranged, which itself or by means of chains attached to it or the like Agent touches the grist.

In order to support the discharge by wave action here too, it is advisable on the mill and on the insulated beam or wall section the two poles of one from a power source fed electrical circuit connected so that the to The discharging contents of the mill are traversed by electrical waves or vibrations. The voltage and amperage of the current are adapted to the respective conditions, So the size of the mill and the conductivity of the ground material; than electricity can depending on the circumstances direct current, also interrupted direct current, or alternating current can be used. It can also be provided cause a current interruption or a change in the direction of current through the mill circulation itself. "

The drawing shows exemplary embodiments of the invention, namely:

Fig. Ι a
Drum mill,

Fig. 2 in longitudinal section another embodiment,

Fig.3 a longitudinal section along line III-III of Fig. 2.

The grinding drum 1 (Fig. 1) is in the Camps 2 and 3 and is z. B. by

Longitudinal section

by a

*) From the patent seeker the following is indicated as the inventor:

Arno Andreas in Münster i. W.

the gear 4 is set in circulation. The ground material is fed through the stationary inlet 5, through which the wind used for sighting also flows in. This then exits through the trigger 6 loaded with fine material. A The beam 7 is fastened in the fume cupboard 6 with an insulation 8 interposed. He protrudes into the inside of the drum and carries chains 9, which close to the bottom of the grinding drum 1 range.

A power source 10 is through a line 11 to the bearing 3 of the drum, through a Line 12 is connected to the bar 7, which is mounted insulated in the trigger 6. As the drum 1 rotates, the ends of the chains 9 come with the grinding media 13 in contact, and the current entering through line 12 and beam 7 flows through grinding media and material to be ground to drum 1 and over bearing 3 back through line 11 to power source 10. The movement of the grinding media caused by the rotation has the consequence that the chains are repeatedly connected to different grinding media come into contact and also puncture in places the coat of grist that surrounds each grinding media; on In this way, the grist, even if it has only a low conductivity, the Never completely prevent the passage of electricity. There are therefore the grinding media first freed themselves from their electrostatic charge. Since the current partly also flows through the grist, especially if this still has a certain amount of moisture, all that has arisen in the grist are also present Potential differences balanced. The bar 7 extends so far that it or the chains hanging from it preferably touch those points of the grist where the electrostatic Charges cannot be balanced by themselves. The latter is the case wherever the grist still has a large amount Moisture, so it also has a relatively high, elastic conductivity. In the The mill shown in the drawing is therefore preferably intended for moist grist, which experiences drying at the same time through the use of hot sight wind during grinding, so that it is close to the inlet Although it still has its moisture, it gradually loses it and towards the end of the leak is almost or completely dry.

Must be the electrostatic charges in the whole drum according to the invention are eliminated, the beam will naturally protrude further into the drum leave, if necessary to the other end of the drum. You can of course also give him one in the drum inlet give an isolated base.

In the embodiment shown in FIGS. 2 and 3, the grinding drum resting in the bearings 14 and 15 is composed of two shells 16 and 17, between which an intermediate layer 18 made of insulating material is arranged. In the journal located in the bearing 14, this insulating layer 18 is widened to form circular segments 19, so that there the shells 16 and 17 are limited to two circular segments 20 and 21.

In the bearing block 14, which, like the associated bearing cover 22, has an insulating layer 23 is lined, there are the two bearing shells 24 and 25, which are covered by an insulating layer 26 are separated from each other. Lines 27 and 28 coming from a power source (not shown here) are on the bearing shells 24 and 25 connected.

The bearing shells 24 and 25 are recessed so far on their inner circumference that the Drum pegs formed from the circular sections 19, 20 and 21 always have only one small area rests on the lower bearing shell 24 and the upper bearing shell 25 with an equally small or even smaller area secures its position. The mentioned Recesses are so large that the parts of the two in contact with the pin Bearing shells 24 and 25 are smaller than the circular sections made of insulating material 19, so that never the two with the shell halves 16 and 17 are in connection conductive pin parts 20 or 21 can touch the same bearing shell at the same time.

The other bearing 15 is not shown here Way designed such that between the shells 16 and 17 as well as zwisehen one of the same and earth cannot form a conductive connection.

When the drum is in the position shown in Fig. 3, it passes through the pipe 27 supplied current from the bearing 'shell 24 in the journal part 21 and thus in the shell 17 penetrates from here through the ground material and the grinding media into the other Shell 16 and flows through the pin enteil 20, the bearing shell 25 and the line 28 from. If the drum continues to rotate, this circuit remains in place until as a result of the rotation the journal part 20 leaves the bearing shell 23 and the journal part 21 leaves the bearing shell 24. As soon as the peg part 20 turns the shell 24, the peg part 21 however, the bearing shell 23 touches, the circuit is closed again, but the current now flows in the opposite direction through the grist.

As a result, the current flows back and forth with every revolution of the drum.

mes through the grist, so that a permanent polarity reversal takes place, through which the Potential differences that develop in the ground material as a result of friction are canceled out. In general, one becomes, especially when it is damp or because of its chemical composition relatively conductive regrind, work with low voltages and also the amperage despite the relatively can keep large mass of the ground material to be penetrated within low limits, because experience has shown that it is very weak currents are sufficient to discharge the electrostatic charges.

Of course, the discharge can be done in another way, if the circumstances allow this. Under certain circumstances, those specified in exemplary embodiment 1 can be used Lines 11 and 12 as well as the power source 10 and the insulation 8 remain away. The unloading of the ground material then takes place simply in that the chains 9 have one, for example, the positive charge in discharge the outlet 6, while the other, i.e. the negative charge through the drum ι the outlet 6 flows so that the compensation takes place in this.

Claims (2)

Patent claims: ι. Mill designed for the elimination of electrostatic charges,! Thereby characterized in that an optionally insulated bar or wall section in the grinding chamber is arranged, which touches the grist itself or by means of chains attached to it or similar means. 2. Apparatus according to claim 1, characterized in that to the mill and on the insulated beam or wall section, the two poles of an electrical circuit supplied by a current source are connected. 1 sheet of drawings