EP0031542A1 - Process and apparatus for diminuting materials at low temperatures - Google Patents

Abstract

In the process, the material to be ground is cooled essentially ahead of a comminuting device (1) in a cooling shaft (2) with a material charging hopper (3) with the aid of a very low temperature cooling gas. The cooling gas is guided via lines (9, 11, 13) in a circuit through the cooling shaft (2) and through a reservoir (6), connected downstream of the comminuting device (1), with filter (8) and a fresh cooling gas is injected into the circuit via an atomising device (15). In order to generate a conveying gas stream in the communiting device (1), a conveying gas stream is branched off from the circuit and directed via a line (12) to the comminuting device (1). In order to compensate a change in the material structure occurring during the comminuting process or in order to manufacture a product, such as for example seasoning mixtures, which is only complete in a mixture state, it is provided to add corresponding additives to the material to be ground before the comminuting process and/or during the comminuting process. For this purpose, a corresponding admeasuring device (18, 19) for the additives can be assigned to the cooling shaft (2) and/or the comminuting device (1). <IMAGE>

Description

The invention relates to a method for comminuting substances at low temperatures, in which the ground material is cooled in front of and / or in the comminution device with the aid of a cryogenic cooling gas, and an apparatus for carrying out the method.

Cold grinding is used particularly advantageously for substances which are inherently tough, elastic or sticky or which assume this state due to the heating that occurs during comminution. In addition, such materials can also be cold-ground particularly well if the moisture, oil or fat content is particularly high. The advantages of cold grinding include energy savings, a higher possible throughput of the shredding device, an improvement in the quality of the end product, an inertization of the grinding atmosphere and, last but not least, high operational reliability.

For some substances, it is necessary to mix them with additives after the shredding process, either to compensate for a change in the material structure occurring during a shredding process or simply to achieve the production of a product that is only made as a mixture. For example, in the latter case, the production of ground spice mixtures, the production of mixtures in the pharmaceutical industry, the production of fermentable mixtures, such as snuff, to which flavorings are added after grinding, or the mixing of polymers after grinding with additives, such as Stabilizers, fillers, lubricants or pigments to name. In the first case it can be, for example, to prevent the sticking of uncrosslinked resins after grinding, in which case e.g. Talc is used to reduce the adhesion of the individual pieces of granules.

The mixing of the regrind with additives after the crushing process, however, requires a separate mixing device, which increases the plant and operating costs significantly. In addition, it can be difficult to produce a homogeneous mixture, especially when mixing regrind and additives with completely different grain sizes. For example, in the production of spice mixtures from two starting materials which have completely different grain sizes after comminution, these are to be mixed with one another at least over a relatively long period of time in order to achieve a homogeneous mixture in a mixing plant.

The invention is therefore based on the object of designing a method and a device of the type mentioned at the outset in such a way that good mixing of regrind and additives can be achieved in a simple and economical manner.

This object is achieved in that additives are added to the regrind before the comminution process and / or during the comminution process.

With the addition of the additives before and / or during the comminution process, complex mixing of additives and comminuted ground material after the comminution process can be omitted in any case, since the mixing effect can then be achieved before and in the comminution device. Such substances, e.g. Non-vulcanized resins, in which the comminuted particles generally stick together without the presence of additives, are obtained as fine granules right at the exit of the comminution device due to the presence of the additives in the comminuted material.

It is expedient to carry out the addition of the additives at least partially during the cooling process of the ground material. This already results in extensive mixing of the aggregates with the regrind in front of the shredding device. At the same time, the additives are cooled to the grinding temperature with the regrind, so that heating of the regrind, as would occur if the additives were added after the cooling process, is ruled out.

It is likewise advantageous, in the presence of a conveyor _- gas flow for transporting the material to be ground by the grinding means and for dissipation of heat from the comminution means the incorporation of the aggregates at least partly due to the object of the additives carried out in the feed gas stream. Since the conveying gas stream, like the gas stream used to cool the ground material, is a cold gas stream in order to remove the grinding heat generated in the comminution device, the additives are also cooled down in the conveying gas stream during the task, so that, in this case, undesirable heating in the comminution device is also achieved by adding the aggregates can be avoided. The aggregates are then mixed with the regrind during the comminution process in the comminution device. The purpose of the additives in the feed gas stream can in _s special in fine aggregates are carried out by means of a conveyor arranged in the gas flow injector.

In particular, when adding several additives or a larger amount of additives, it may also be advisable to combine the two above procedures and to add one additive or part of the additive to the regrind during the cooling process and the other additive or the other part of the additive in the feed gas stream. In this way, an even distribution of the aggregates in the ground material can be ensured.

An apparatus for carrying out the method comprises a cooling device through which cooling gas flows or which contains a liquid cooling gas, a comminution device and one downstream of the comminution device teten collecting container, in which according to the invention the cooling device and / or the crushing device is assigned an addition device for the additives.

The addition device for the admixture of the additives during the cooling of the ground material can expediently be arranged on the material feeding device of the cooling device. By simultaneously feeding the ground material and the additives into the material feed device, mixing of the ground material and additives is already achieved.

Particularly good mixing between the ground material and the aggregate can, however, already be achieved in front of the comminution device if the cooling device is designed as a screw conveyor. The movement of the screw conveyor alone then brings about the mixing, a uniform and intensive cooling of the mixture also taking place with the aid of the cooling gas supplied to the screw conveyor.

If a conveying gas line is connected to the comminution device, it can be expedient according to a further embodiment to arrange the addition device in the conveying gas line in front of the comminution device and to cool the additives supplied via the addition device in the conveying gas stream and to transport them directly into the comminution device. The feed device can expediently be connected to an injector operated by the conveying gas flow.

The drawings schematically show two exemplary embodiments of a device for carrying out the method according to the invention, which are explained in more detail below.

• Figur 1 eine erfindungsgemäße Kaltmahlanlage mit einer als Kühlschacht ausgebildeten Kühleinrichtung;
• Figur 2 eine erfindungsgemäße Kaltmahlanlage mit einer als Förderschnecke ausgebildeten Kühleinrichtung und einer gegenüber der Kaltmahlanlage von Figur 1 geänderten Gasführung.

It shows:

• 1 shows a cold grinding system according to the invention with a cooling device designed as a cooling shaft;
• FIG. 2 shows a cold grinding system according to the invention with a cooling device designed as a screw conveyor and a gas duct that has been modified compared to the cold grinding system of FIG. 1.

In the figures, 1 denotes a comminution device, which can be, for example, a jet mill or a pin mill. Upstream of the comminution device 1 is a cooling device 2 which is designed as a cooling shaft according to the device according to FIG assigned. Downstream of the comminution device 1 is a collecting container 6 for the comminuted regrind, which is withdrawn from it via a discharge device 7.

In the embodiment shown in FIG. 1, the ground material and comminution device 1 are cooled with the aid of nitrogen which is circulated. The circulating gas is drawn off from the collecting container 6 by means of a blower 10 via a line 9 and a filter 8 and partly via a first supply line 11 as cooling gas below into the cooling device 2 designed as a cooling shaft and partly via a second supply line 12 as a conveying gas into the Comminution device 1 is initiated, whereby on the one hand the ground material is cooled and on the other hand the comminution device 1 is brought to the intended temperature or is kept at this temperature. The cooling gas heated by heat exchange with the regrind in the cooling device 2 is drawn off at the upper end of the cooling shaft and fed to the collecting container 6 via a connecting line 13, on the one hand to heat up the comminuted ground material emerging from the crushing device 1 in the cold state and on the other hand to cool the heated cooling gas again. The cooling gas and the conveying gas drawn in by the comminution device 1 are then withdrawn again from the collecting container 6 via the blower 10. To maintain a certain temperature of the cooling gas and the conveying gas, liquid nitrogen is injected into the feed lines 11, 12 via atomization devices 14, 15 and a tank connection line 16 from a tank (not shown) and the gas quantity corresponding to the sprayed nitrogen is passed via an exhaust gas valve 17 downstream of the blower 10 deducted.

According to the invention, on the one hand the feeder device 3 and on the other hand the feed gas line 12 is assigned an addition device 18, 19 for additives, which can each consist of a feed hopper with a downstream discharge device. In this case, the additive can be fed from the addition device 18 in free fall into the feed device 3 of the cooling device 2, while the additive to be mixed with the conveying gas flow can be sucked in by an injector 20 arranged in the conveying gas line 12 via a connecting line from the adding device 19.

Of course, only one feed device can also be present, or the two feed devices can also be connected to one another via a distribution line, so that in this case one and the same aggregate can be fed to the grinding system via both feed devices.

The cold grinding plant according to FIG. 2 differs from the cold grinding plant according to FIG. 1 in that the cooling device 2 upstream of the comminution device 1 is designed as a screw conveyor. In addition, the gas flow is different in that the liquid nitrogen supplied from a storage tank (not shown) via the tank connection line 16 to the cold grinding system is partly supplied via a supply line 21 directly to the cooling device 2 and the circulation of the gas passed through the grinding system is carried out solely by passing the exhaust gas over it the line 9 is formed in the conveying gas line 12, a portion of the liquid nitrogen supplied via the tank connection line 16 being injected into the conveying gas line 12 in the atomizing device 14.

The use of a screw conveyor as a cooling device not only results in a good mixing of regrind and additives, but also enables the mixture of sprayed and evaporated cooling gas to be applied uniformly, so that any temperature differences are compensated for when the regrind particles and the particles of the additive come into intensive contact with one another and the energies used are used economically.

In this embodiment, the addition devices 18, 19 are assigned a distribution line 22 with corresponding sliders for distributing the additives to the individual addition devices. In addition, it is indicated by a dashed line 23 that different additives can be supplied to both addition devices.

In addition to the exemplary embodiments shown, it is sufficient when processing certain substances to supply only a gas stream to the comminution device in order to dissipate the grinding heat. As an example, the comminution of rubber in cutting mills can be cited in this case, in which talc is then added to the rubber in front of the cutting mill to avoid sticking in the comminuted state.

However, the principle of the method can also be used for all other cold grinding systems and using other cooling media, such as cold air or CO ₂ .

Claims (7)

1. Process for crushing substances at low temperatures, in which the ground material is cooled in front of and / or in the size reduction device with the aid of a cryogenic cooling gas, characterized in that additives are added to the ground material before the size reduction process and / or during the size reduction process. 2. The method according to claim 1, characterized in that the admixture of the additives is carried out at least partially during the cooling process of the ground material. 3. The method according to claim 1 or 2, in which the ground material is transported with the aid of a conveying gas stream through the comminution device, characterized in that the admixture of the additives is carried out at least partially by abandoning the additives in the conveying gas stream. 4. Apparatus for carrying out the method according to one of claims 1 to 3 with a cooling device through which cooling gas flows or contains liquefied cooling gas, a comminution device and a collecting container connected downstream of the comminution device, characterized in that the cooling device (2) and / or the comminution device (1 ) an addition device (18, 19) for the additives is assigned. 5. The device according to claim 4, characterized in that the addition device (18) on the feed device (3) of the cooling device (2) is arranged. 6. Apparatus according to claim 4 or 5, characterized in that the cooling device (2) is designed as a screw conveyor. 7. Device according to one of claims 4 to 6 with a conveying gas line connected to the comminuting device, characterized in that the addition device (19) is arranged in the conveying gas line (12) in front of the comminuting device (1).

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