DE2049848A1 - Grinding process for vibratory mills - Google Patents

Description

Annex to the patent application by
Klöckner-Humboldt-Deutz H 70/43

Aktiengesellschaft Ls / Sto

dated October 8, 1970

Grinding process for vibratory mills

The invention relates to a grinding method for vibratory mills, in particular for fine comminution

of plastics. G

When fine shredding some materials, especially when fine shredding plastics in one Vibratory mills have shown that the grinding performance drops sharply with substances that have the property to charge oneself electrostatically. The decrease in grinding capacity is due to the fact that BlA under the Influence of the electric charge, individual good particles stick to one another and form larger agglomerates. The agglomerates act like buffers between the individual grinding media and consume a significant part of the energy without being crushed. To still one To achieve sufficient fine or very fine comminution, the grinding time had to be considerable in such cases be extended. Another consequence of the electrostatic charging of the ground material was that the ground material not classified due to the formation of agglomerates

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could be, since the finished product, d. H. the finest Due to their larger specific surface, particles have a particularly strong tendency to agglomerate and consequently from the not yet sufficiently crushed

not

Gut' could be separated by classifying. In fine grinding of mineral substances, attempts have been made to reduce the electrostatic charge or to completely eliminate the fact that water was injected into the grinding chamber during the grinding process. This procedure is however, only effective if the surface of the ground material corresponds to the humidity of the grinding room atmosphere reacts to form an electrically conductive coating on each particle. For materials that come with water must not come into contact or which do not react with water, this procedure cannot be carried out. If the ground material is embrittled with the aid of refrigerants, as is the case with the grinding of plastics, then separates a water injection due to the icing of the grinding chamber and grist anyway.

It is known to use so-called grinding rods as grinding media for comminution in vibratory mills. Grinding sticks are only used for pre-shredding, i.e. H. for shredding a relatively coarse feed material.

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The fine and ultra-fine comminution, which takes into account a reasonable expenditure of energy and time by one If the feed material is already as fine-grained as possible, grinding media in spherical shape or so-called Cylpebs, i.e. H. Cylinder sections carried out.

Object of the invention is to provide a grinding method for fine and ultra fine grinding in vibrating mills, Λ which is also applicable for substances with electrostatic properties at reasonable expense for beating and grinding time. This is done according to the invention in that known metal rods are used as grinding bodies, that the length of the rods is only slightly shorter than the length of the grinding chamber and that the end faces of the grinding chamber are grounded. It has been shown, surprisingly, that in spite of the use of the grinding rods which are only suitable for pre-comminution, very good fine or very fine comminution of such substances can be achieved. This is due to the fact that during the grinding process some of the metal rods are always in contact with the wall of the grinding chamber, and not just the rods in the immediate vicinity of the four grinding chamber walls, but above all the rods inside the grinding body filling. The rods inside the grinding media filling bump during operation

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the vibrating mill constantly a few rods each to the front sides of the grinding chamber, so that just the electrical Charges from grist particles inside the grinding media filling are discharged to the outside via the grounding can.

The invention is explained in more detail using an exemplary embodiment.

A thermoplastic material with electrostatic properties is used for fine grinding first embrittled with the aid of a refrigerant, in this case liquid nitrogen, in order to fine-tune it to enable in a vibrating mill. The frozen plastic granulate is then with the addition of given up further refrigerant of a vibrating mill.

In the case of a grinding media filling consisting of spheres, the electrostatic charge of the particles was so high that the grinding capacity decreased considerably with normal grinding time and a determination of the grinding capacity with the help of a sieve analysis was not possible , since the finest particles, i.e. the finished product, appear coarse-grained agglomerates formed that could not be separated.

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According to the invention, the grinding balls have now been exchanged for metal rods which are about 20 mm shorter in length were than the length of the grinding chamber. In addition, the grinding tube was made from a band on its front side Copper braid, which was attached to the walls of the grinding chamber with good electrical conductivity, with a grounding line tied together. It was found that despite the grinding rods which are inherently unfavorable for fine or ultra-fine comminution a very good fine comminution of the plastic was achieved and that the electrostatic charge of the ground material could be completely diverted and the formation of disruptive agglomerates avoided became. This enables the grist to be sieved and thus classified.

Claim

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Claims (1)

Claim Grinding process for vibratory mills, especially for the Fine comminution of plastics, characterized in that known per se as grinding media in the grinding chamber Metal rods are used that the rods are only slightly shorter in length than the length of the grinding chamber and that the end faces of the grinding chamber are earthed. 209816/0712 \