DE2510297A1 - Milling and drying plant for bulk materials - crushed by mutual impact in gas stream and with recrushing of coarse fraction - Google Patents

Abstract

Device for the processing of bulk materials in countercurrent, using a chamber fitted with injectors directed towards each other, the chamber being connected to a separator provided with pipes leading to the injectors. Each of the pipes leading to the injectors is fitted with an additional separator for the sepn. of that part of the finished produce entrained in the coarse material being returned via the pipes to the injectors for reprocessing. The additional separators are pref. fitted with louvres directing the flow of gas into the pipes, and the main separator is pref. fitted with a conical baffle preventing the mixt. of the fine and coarse sepd. fractions. Used for milling, drying, and/or calcining of sand, ballast, ores, moulding mixts., salts, fertilizers, chemicals, cereals, bones, sugar, dried vegetables, fruits, cement, solid fuels, graphite etc. Output is increased by 5-20% without any increase in fuel expenditure.

Description

DEVICE FOR THE PROCESSING OF BULK MATERIALS The invention relates on devices for processing bulk materials such as sand, crushed stone and others Non-ferrous ores, various ores, metallurgical forming mixtures, salts, fertilizers, Reagents and other chemicals, cereals, bones and other products of the Agriculture and livestock as well as Sa.b-, sugar, dried vegetables, fruits and other foods.

The invention can be used in mining, metallurgical, chemical and the food industry as well as in the building materials industry.

Depending on the type of processing the said a bulk material can in the inventive device -. At present, any degree of bulk material cleaning - from decimeters to micron fractions - mixing and homogenizing several Materials, cleaning and roughing the Surface of the to be processed Materials, separation of the respective component from crushed lump ore mass, Drying of moist bulk materials and, if necessary, their burning and continuous Performing chemical reactions between those to be processed in the device Materials for example pickling of bulk material with acids, caustic solutions and gases will.

A device for processing bulk materials is known which represents a jet mill, which contains injectors, in which the comminuted material carried away by an energy source and accelerated up to a speed which comes close to the speed of the energy carrier and has a chamber in which the said injectors are installed coaxially and directed towards each other. the Chamber ensures a free collision and the splitting of that to be reduced Materials. The device also includes a separator connected to the chamber, which separates the finished product from the insufficiently shredded material - the intermediate product -separates and is connected to the injectors by means of pipelines, the pipelines lead the above-mentioned intermediate product to the final comminution (see for Example the book by Akunow, W.I. "Strahlmüble n", Maschinenbauverlag, Moscow, 196 ?, pages 139-142, 153-166, 167-168).

In the known devices secure the separator in one of usually too. Elimination of the finished product from the crushed Good. The remaining 10-20% of the finished product, carried away by the stream of the intermediate product, are fed back into the injectors and unnecessarily go through the processing cycle through again. This requires compressed gas energy, electrical energy and other types of energy be in all stages of processing; process of the good expended thereby if the performance of the device decreases accordingly, the specific one increases Wear of your inner work surfaces (lining) with corresponding contamination of the product; as a result of the too fine comminution of the material, the content rises finer fractions more than is required. All of the phenomena listed above cause significant processing costs of the material in the known device compared to the cost of avoiding the return of the finished product for re-shredding would be possible.

The aim of the invention is to eliminate the disadvantages mentioned.

The invention is based on the object of a device for processing of bulk solids, the structural design of which is the elimination the material returned to the injectors for post-processing <a ver what part of the finished product that remains in it> secures, it remains the finished product) possible, in comparison to the known device from the material to be processed to achieve a higher degree of excretion of the finished product and thereby to increase the performance of the device.

This object is achieved in that in the device according to the invention for processing Schüttgüteiner tern in countercurrent with the help of in Eamser built and directed injectors and one connected to the chamber Separator, which is connected to the injectors by pipes, in each Pipeline that connects the separator with the injectors, an additional separator Wira built in to remove the material that goes to the injectors for post-processing of the part of the finished product remaining in it is returned.

The wheat of the invention consists in the following.

The from the main separator of the device for post-processing in Particles of the intermediate product to be returned to the injectors are stored in the additional separators an intensive blow-off, mainly a transverse blow-off, that is to say in the direction perpendicular to the movement of the intermediate product. By a high speed of blow-off tear the crushed and dried ones Particles of the finished product from the surface of the entrainment large grains of the intermediate product and are used with gas stream for further use the storage or the material brought out.

The process of excretion of those carried away by the intermediate product Particles of the finished product are created by the mutual frictional action of the particles promoted, which arises in their flow when blowing crosswise.

Thus, part of the finished product (5-20S depending on the fineness of the grind, the moisture content of the material and the type of main separator), which is not separated from the main separator, is collected and can use the injectors, Do not load the discharge pipe and the main @@@ cheider any more. Therefore increases the lasts, I device by as many percent with the same consumption of expensive Energy carrier, and the product is not excessively crushed in the process. The durability the lining of the device increases to 1.5-2 times, as with the decrease the degree of comminution of the material decreases its lubricating effect considerably.

When blowing off the intermediate product in the additional separator with hot gas secondary operations are possible - burning or drying of the intermediate product, thereby can be a significant economic benefit in the event of insufficient firing or arise when drying larger grains of the material to be processed.

For a better explanation of the nature of the invention, the following is now based on the sbeispiel a description drawing of an embodiment of the invention Device for processing bulk materials, in which the device is schematically is shown in the longitudinal section.

The device shown in the drawing represents a jet mill in the comminution of the goods, for example sand, solid fuels, cement, Graphite and the like.

which occurs as a result of the collision of particles.

The device consists of two injectors facing each other 1, which are installed in the chamber 2 of a main separator 3, which is connected to the chamber 2-connected by means of pipeline 4 and pipelines 5, which are the main separator 3 connect with injectors 1, and from additional separators 6, which in each pipeline 5 are built in.

The injectors 1 are for accelerating the particles of the starting material, which enter chamber 2 for machining (milling, roughing and other operations, and when a warm energy source is supplied - also its drying or burning) occur, intended.

The pipe 4 s: ent for transferring the goods to be processed into the main separator 3, which carries the finished product in the flow of airborne particles separates from the inadequately processed intermediate product.

The pipes 5 are used to return the separated from the separator 3 Intermediate product into the injectors.

The additional separators 6 are for the separation c before it for post-processing is returned to the in-intermediate jectors 1, 4 of the int remaining part of the finished product from the viewpoint Preferably, each of the additional separators 6 is in the upper one Part of the pipeline 5 with direct connection partially arranged to the lower part of the main.

separator 3 The reason for this is that in the upper part of the pipeline 5 the possibility of contamination of the product by the excreted intermediate product is less.

For removing suspended particles from the finished product in the energy carrier at the point of their separation in the eddy dust collector 7 is in the separator 3 a Pipeline 8 mounted.

The eddy dust collector 7 is connected to the fan by means of a pipe 9 10 connected.

In connection with the fact that in the specific example to be treated a separator of the impingement vortex type with a Roein gate 11 is used Electric drive 12 is provided in separator 3.

With some types of separators, there is no need for one Pipeline 4, and the chamber 2 is connected to the main separator 3 directly.

In this example, the additional separator 6 represents a system of louvre panels or profiled strips that are inclined with respect to the flow of the Intermediate product, which is returned to the injectors, are arranged.

The additional separators 6 are through a pipe 13 with a fan 14 or connected to the fan 10.

In the main separator 3 there is a conical hollow element 15 introduced, which performs the function of a limitation, the mixing of the suspended particles of the precipitated by the Zusatzenscheei countries 6 product with the suspended particles of the material that is separated in the main separator 3 is prevented.

At the nozzles 16 of the injectors 1, the pipeline 17 is an upright connected under pressure energy carrier, from a compressor room, boiler system or from another source 18 tEnergieträger7 comes the device according to the invention works as follows.

The material to be crushed arrives in the injectors 1, as it does with is shown by the arrows A.

The good particles are in the injector by the flows of a gas energy carrier - For example, carried away by compressed air, superheated steam and the like the nozzles 16 under pressure of 0.05-50 atmospheres from the gas source 18 through the pipelines 17, then accelerated and introduced into the chamber 2 at great speed will.

In the chamber 2, the good particles are collided with each other shredded and dried from the energy source at the same time.

The shredded material becomes the energy carrier in the form of suspended particles is entrained into the pipeline 4 and enters the separator 3.

In the separator 3, the larger material particles are through the from Centrifugal force generating the rotor is thrown back against the walls of the separator and pass through the pipes 5 into the injectors 1 for repeated crushing in chamber 2.

The small particles of the good, the grain size of which is the required Grinding fineness of the finished product corresponds, are from the separator 3 in the form of suspended particles in the gas of the energy carrier through the pipe 8 into the vortex dust collector 7, where they are separated from the gas and placed for further use or storage (indicated by arrow B). The separated from the product Gas is released from the device through the pipe 9 by means of a fan 10 removed.

To operate the additional separator 6 is usually atmospheric air, which is supplied by the fan 12, or part of the energy source, which is from Fan 8 is centrifuged, used.

If an intensive drying or soaking of the to be shredded Material is required, instead of atmospheric air, hot exhaust gases from adjacent Industrial companies are used.

Gas is fed into the additional separator 6 through the pipes 13, runs through its blinds into the pipes 5 and blows out of the into the injectors The intermediate product to be returned is the particles of the finished product carried along by it the end.

These particles suspended in the gas that are supplied through the pipe 13 is, get into the space between the conical element 15 and the separator housing, what the Possibility of repeated mixing with the material, that is separated from the main separator is prevented. The dimensions of the conical hollow element are made depending on the parameters of the process and the chosen to be crushed.

In addition, the particles of the Bertigproduktes are mixed with suspended particles of the finished product separated by the main separator, led out of the separator 3 through the pipeline 8.

The present device for processing bulk goods ensures, compared to the known devices, the increase in performance by 5-20% with the same consumption of expensive energy carriers, prevents ieil trip excessive shredding of goods and increases by 1.5-2 times> the service life of the lining of the injectors and chambers of the and by 20% the draining pipelines.

Claims (3)

P A T E N T A N 5 P R U11 C R E 1. Device for processing bulk materials vB countercurrent by means of Injectors built into a hammer and directed against one another and one with the chamber connected to the separator, which is connected to the injectors by pipes is that in each pipeline (5), which connects the separator (3) with the injectors (n), an additional separator (6) for the elimination of that to be returned to the injectors (1) for post-processing Material banned part of the finished product is provided. 2. Apparatus according to claim 1, characterized in that the additional separator (6) Contains blinds designed to be blown across at an angle with respect to the flow of the are arranged in the injectors (1) to be returned material. 3. Apparatus according to claim 2, characterized in that the Connect the additional separator (6) to a (main separator (3) that has a conical contains hollow element (15), which the mixing of the suspended particles of the additional separators (6) separated product with the suspended particles of the Good that is separated in the (main) separator (3) is prevented. Blank page