DE2855419A1 - DEVICE FOR WET MECHANICAL SIZE CLASSIFICATION OF A FIXED PART - Google Patents

Description

HOFFMANK EITLS Ol PARTNER

DR. ING. E. HOFFMANN (1930-197) · DIPL-ING. W.EITLE DR. RER. NAT. K. HOFFMANN DIPL.-ING. W. LEHN

DIPL.-ING. K. FDCHSLE DR. RER. NAT. B. HANSEN ARABELLASTRASSEX (STAR HOUSE). D-8000 MDNCHEN 81. TELEPHONE (089) 911087. TELEX 05-29019 (PATHE)

31 527 v / ga

Centralny Osrodek Projektowo-Konstruktcyjny Maszyn Gorniczych

KOMAG, Gliwice / Poland

Device for wet mechanical size classification of a solid part mixture

The invention relates to a device for the wet mechanical size classification of a mixture of solid parts according to the features of the preamble of claim 1.

The device is intended to be used in mechanical processing methods Minerals, as well as in the building materials industry, in the chemical, wood processing and food industries are used.

A device for the wet mechanical size classification of a mixture of solids is known, which consists of several screening stages consists of wedge wire sieves built up coaxially in a common housing in the form of inverted truncated cones are. Sieves in the form of truncated pyramids are also known. The wedge wire screen of each stage of the known device

can be made from several segments arranged one above the other. There is a circular one between the individual sieve stages The gutter is arranged around the larger base of the screening stage and against the central axis of the device is open. The circular gutter is covered from above. Feed nozzles are arranged tangential to the circular channel, whereby the mixture of solids to be classified and the rinsing water on the sieve surfaces are set in a whirling motion will. The feed nozzles are dimensioned so that they periodically adjust the feed direction of the solid matter mixture and the rinsing water can change, whereby an even wear of the sieve surfaces is achieved. In addition, the known device Equipped with a vibration device with adjustable excitation force, which continuously or periodically the sieve surfaces set in an oscillating motion of low amplitude. This prevents very fine solid particles from getting stuck, the size of which is approximated to the size of the columns in the sieve mesh, in the sieve openings, what the classification results would deteriorate and increase the degree of dissipation of the product below, and prevent the build-up of the product remaining on top in the lower part of the sieve. The performance of the known device is mainly of the size of the screen area and ultimately the surface area of the screen openings as well as the inlet speed of the to classifying solid part mixture dependent. A disadvantage of the known device is the direct Proportionality of the performance of the device to the inlet speed of the mixture to be classified. This dependency makes it necessary to maintain a correspondingly high hydrostatic pressure for the solid part mixture, whereby the installation of this device in buildings of processing plants makes it difficult and increases its operating costs will. It also makes it necessary to use high infeed speeds of the material to be classified Mixture, whereby when classifying a coarse grain

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mixture, i.e. a mixture of the grain size order of 50-80 mm, breakage of the coarse grains and premature wear of the sieve surfaces due to abrasion by the grains occurs. When classifying coarse-grained mixtures, the feed nozzles are clogged in the known device. at the classification of mixtures, however, which consist of 1 mm and smaller grains, the device is by one characterized by low classification efficiency.

The purpose of the invention is to create a universal device with better usage properties, which are characterized in particular by a higher degree of efficiency and a higher Performance at the same hydrostatic pressure of the mixture containing fine grains to be classified, as well as a higher one Operational reliability and a longer service life when classifying coarse-grained mixtures are characterized.

This object is achieved by the device characterized in claim 1.

The device according to the invention has compared to the known Device on a number of advantages that are expressed during its use. The inventive Device ensures the same diameter of the sieve stages and the same feed pressure as in the known Device a doubling of the power and allows the classification of a mixture, which Contains grains 1.4 times larger in diameter. Furthermore, for a given size of the largest grain, it allows one Reduction of the diameter of the sieve segments and a reduction of the feed pressure by 70%, resulting in breakage the coarse grains are reduced and the service life of the wear elements is increased.

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The classification of a fine-grained mixture takes place in the device according to the invention with the same amount of feed material and the same feed pressure as in the known device in a two times thinner layer, which reduces the filtering effect of the partially dewatered material layer and ensures a higher efficiency of the classification. This increase in performance is due to a reduction the energy losses at the feed nozzle and on the sieve surfaces. The device according to the invention can be used universally, because they are used to classify both coarse-grained and fine-grained mixtures with high efficiency and can serve at high performance. Another advantage of the device consists in the fact that the sieve surfaces are made up of adjacent symmetrical segments, whereby the mixture to be classified on this in opposite directions Directions is swirled. Since the sieve surfaces are subject to asymmetrical wear during operation, this makes it possible their execution from symmetrical segments the exchange of the sieve surfaces within a device after a certain Time. This results in a long period of use of the sieves and long-term recovery of classification products assured of constant quality.

It is also possible to use only one of two complex sieve surfaces. In this case, an adjustable guide plate should be installed in the distributor opening. For the purpose of a uniform distribution of the supplied mixture over the two complex sieve surfaces, a distributor wedge in the form of a "wedge shoe" is pivotably arranged in the distributor opening. This ensures the distribution of the mixture flow into the circular channels.

When classifying mixtures containing very fine grains, the sieve surfaces placed next to one another can be used with vibration devices with adjustable vibration

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excitatory power to be equipped. Either the entire sieve surfaces or their segments can move in an oscillating motion as set in the known device.

The device according to the invention is shown in the drawing using an exemplary embodiment. It shows:

Fig. 1 is an elevation of the device represented by the

Is guided in the middle of the two circular channels and the sieve surface segments,

FIG. 2 is a plan view of the device according to FIG

Removal of the cover over the distributor opening, and

Figure 3 is an elevation of the device along the axis

the feed nozzle.

The device consists of two circular channels 2 and 2a placed side by side and on the same level. In the contact area of the circular troughs, a distributor opening 5 is formed in their outer walls 4 , and a pivotable cover 9 is provided over the part of the circular troughs in which the distributor opening 5 is located. A common feed nozzle 3 through which the mixture to be classified flows is introduced into the space between the cover 9 and the bottom walls of the circular channels 2 and 2a. The flow of the mixture to be classified is divided in the distributor opening 5 by the distributor wedge 6 into two flows flowing off into the circular channels 2 and 2a, from which they flow down onto the sieve surfaces 1 and 1a. The device can be equipped with vibration devices 7.

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The upper sieve product is made of the sieve surfaces 1 and 1a by gravity through separate, with the smaller base area of the conical sieve segments, the lower sieve product, however, through one in the bottom of the housing 8 formed common opening derived.

9S9826 / 0916

Claims (4)

HOFFMANN · SITLIiI dc PARTNER PATE N TAN WALTE 2 6 S S 4 1 DR. ING. E. HOFFMANN (1930-1976). DlPL-ING. W.EITLE · D R. RER. NAT. K. HOFFMAN N DIPL.-ING. W. LEHN DIPL.-ING. K.FOCHSLE ■ DR. RER. NAT. B. HANSEN ARABELLASTRASSE 4 (STAR HOUSE). D-8000 MONCH EN 81. TELEPHONE (089) 911087. TELEX 05-29419 (PATHE) 31 527 v / ga Centralny Osrodek Projektowo-Konstruktcyjny Maszyn Gorniczych KOMAG, Gliwice / Poland Device for wet mechanical size classification of a solid part mixture Claims Λ.ί Device for wet mechanical size classification of a mixture of solids, consisting of at least two circular troughs formed from segments in the form of inverted truncated cones or truncated pyramids, equipped with a vibration device with adjustable excitation force, the larger base area of which can be adapted to a change in the direction of feeding of the mixture of solids which are provided with tangential feed nozzles, characterized in that they have two circular channels (2 and 2a) arranged tangentially next to each other on the same plane and are equipped with a common feed nozzle (3), with the outer walls of the channels ( 2 and 2a) in their 9,99826 / 0916 A distributor opening (5) is formed in the contact area, in which opposite the inlet opening of the feed nozzle (3) a distributor wedge (6) is arranged, and that on the inner Edges of the bottoms of the circular grooves (2 and 2a) separate sieve surfaces (1 and 1a) are attached. 2. Apparatus according to claim 1, characterized in that the axis of the feed nozzle (3) is approximately is arranged tangential to the circumferences determined by the circular grooves (2 and 2a). 3. Apparatus according to claim 1, characterized in that the distributor wedge (6) around a vertical Axis is pivotable. 4. Apparatus according to claim 1, characterized in that a pivotable over the opening (5) Lid (9) is arranged. 9 © 9826/0916