EP1681105A1 - Modular classifier with multiple separating wheels - Google Patents

Abstract

A separator wheel unit (16) for a multi-wheel particle classifier (1) for moderate flow in a downstream separator chamber (11) and an upstream external outlet (19) especially on chamber (11) has (A) a frame (17) carrying a rotatably drivable separator wheel (18); (B) a drive (21) for the wheel mounted on frame (17); and (C) a device (26 >.32 > >) fixing frame (17) , especially to chamber (11). Independent claims are also included for (1) a separate separator chamber unit (11,19) provided with separator wheels; and (2) a multi-wheel particle classifier with an inlet (10) for loaded air in a moderate flow separator chamber (11) which has a number of downstream separator wheels (18) extending in a flow channel between chamber (11) an outlet (19), these wheels being in the form of units (16,16 >,16 > >) separate from and external to chamber (11) with these units (16,16 >,16 > >) especially being as described above.

Description

The invention relates to a multi-wheel air classifier according to the preamble of claim 10 and a Sichterradeinheit and a Sichterkammereinheit therefor.

Air separators are used to divide a Sichtgut consisting of a heterogeneous mixture of different Komgrößen in a coarse material content and a fine material fraction. Conventionally, an air classifier for this purpose has a vertical axis viewing chamber, in the upper part of a rotating from outside to inside, rotating Sichterrad is arranged. The visible material is sucked up by the Sichterrad. If the item to be classified falls below a certain limit, it is conveyed through the classifier wheel to an outlet. However, if it is larger than the marginal grain size, it will fall back to a classifier height equal to the actual grain size and be further atomized in the classifier chamber in an iterative process until it is either drawn through the classifier wheel or at a coarse discharge outlet located at the bottom of the classifier chamber is excreted.

The marginal grain size achievable with such air classifiers depends essentially on the diameter and the peripheral speed of the classifier wheel. The smaller the diameter and the higher the peripheral speed, the finer the dissolution of the fine material.

Neither diameter of the classifier wheel, nor a speed can be increased as desired. Thus, increasing the Sichterraddrehzahl a rapid increase in wear and energy consumption is connected, whereas from a certain Sichterradgröße no good visibility can be achieved because the required speed can not be driven with cost-acceptable means.

To achieve high throughputs even with small marginal grain sizes, therefore, multi-wheel air separators have been developed. Such a multi-wheel air classifier is disclosed in the patent DE 3303078 C1. A vertical-axis viewing chamber has incorporated in its upper part star-shaped four classifying wheels whose axes of rotation are perpendicular to the vertical axis of the classifier chamber and extend radially to it. The classifier wheels are designed as paddle wheels and sit on a shaft which are mounted in a laterally attached to the upper part bearing housing. The outlet openings on the classifying wheels for the fine-laden, visible air are discharged via exchangeable pipe sections in a central outlet.

With the described multi-wheel air classifier, it is also possible to achieve satisfactory throughputs in the ultra-fine range.

On this basis, it is an object of the present invention to provide a multi-wheel air classifier, which is easy to maintain and inexpensive and has a suitable Sichtradeinheit and a suitable Sichterkammereinheit.

This object is achieved with respect to the multi-wheel air classifier with the features of claim 10, with respect to the classifier wheel unit with the features of claim 1 and with respect to the classifier unit with the features of claim 16.

According to the invention, a modular multi-wheel air classifier is proposed. The classifier wheels are each part of a Sichterradeinheit arranged and fastened separately from the classifier chamber and outside the classifier chamber. As a result, on the one hand, easy accessibility of the classifier wheels or of the surrounding flow channels is ensured, for example for cleaning purposes, since, for example, color pigments are deposited during the screening of lacquer substrates. The entire system is easily dismantled by the proposed structure and easily loaded classifier wheels easily replaceable, whereby the downtime of the entire system can be significantly reduced. It would even be conceivable to exchange a classifier wheel unit during operation if the corresponding flow duct leading from the classifier chamber to this classifier wheel unit were sealed during maintenance. The high wear of the classifier wheels, which requires a high exchange frequency, is caused by the abrasive action of the material to be inspected, for example by tungsten carbide powder to be seen or for laminate coatings used alumina. With the multi-wheel sifter according to the invention or the Sichterradeinheit invention, it would also be possible to replace the Sichterradeinheiten with a change of the visual material, for example, performed as a paddle wheels with a drive of a certain performance on classifier wheels with a rotating screen basket and a drive of another power.

By outsourcing the classifier wheels into separate modules from the classifier chamber, however, a simpler and more cost-effective design of the classifier chamber succeeds, since apart from the connection openings to the classifier units, no constructive measures have to be taken to install the classifier wheels. The same applies to a common outlet chamber downstream of the classifier wheels.

It is therefore advantageous to provide a classifier chamber consisting of a classifier chamber and an outlet chamber, which has corresponding connection and fastening possibilities for the interposition of classifier units.

Overall, thus achieves a cost-effective, easy to maintain and disassembled structure of multi-wheel air classifier, Sichterradeinheit and Sichterkammereinheit, a single interchangeability of the Sichterräder or Sichterradeinheiten and easy accessibility of the classifier wheels and the surrounding flow channels and a structurally simple design of classifier chamber and Exhaust chamber ensured.

The Sichterradeinheiten are advantageously arranged on the ceiling or on the lid of the classifier chamber. A particularly easy accessibility of the respective Sichterrads is achieved when the corresponding Sichterradeinheit is held horizontally pivotable on a pivot pin on the classifier chamber. The entire classifier wheel unit with classifier wheel and associated drive can then be pivoted out of the insertion position after release of corresponding latches on a flow channel formed by a housing between the classifier chamber and the outlet chamber. For example, a lid covering a housing opening behind the classifying wheel could be fastened to a frame of the classifying wheel unit with which the classifying wheel unit is held in the insertion position. Alternatively, however, it would also be conceivable to mitzuverschwenken the entire housing forming the flow channel with the Sichterradeinheit.

The Sichterrad can be arranged on a mounted in the frame Sichterradwelle, wherein as drive an electric motor is provided which has an output shaft which is rotationally connected to the Sichterradwelle, preferably via a drive belt running on corresponding pulleys.

Another way to make the Sichterradeinheit easily from the insertion position into a maintenance position, is to provide a penetrated from the mouth of the separator chamber bottom plate on the frame of the Sichterradeinheit, as a flap with a radial to the classifier chamber - vertical axis to the outside directed hinge is equipped. Even with such a structure succeeds after releasing corresponding latches a simple pivoting of Sichterradeinheit from the use position in a maintenance preparation.

Advantageously, the Sichterradeinheit in a side wall of the Sichterradgehäuses a in the normal direction to the axis of rotation of the Sichterrads (18) aligned sleeve which forms a sealing against the environment mouth opening for a mouth pipe from the Sichterradeinheit to the outlet.

Furthermore, the Sichterradeinheit advantageously on a side wall of the Sichterradgehäuses axially aligned with the axis of rotation of the classifier wheel, an orifice tube from the Sichterradeinheit to the sealed against the environment connection of the flow channel at the outlet.

Further advantageous measures are the subject of the other dependent claims. It goes without saying that the features mentioned above and the following still to be explained not only in the specified combination, but - where appropriate - in other combinations or alone, without departing from the scope of the invention.

Figur 1

eine schematische Skizze eines Zweirad-Windsichters gemäß der Erfindung in einer Gesamtanlagenkonfiguration sowie

Figur 2

eine Draufsicht auf einen Dreirad-Windsichter mit drei unterschiedlichen Sichterradeinheiten gemäß verschiedenen Ausführungsformen der Erfindung und einer Sichterkammereinheit gemäß einer Ausführungsform der Erfindung.

Hereinafter, preferred embodiments of the invention will be explained in more detail with reference to schematic drawings. Show it:

FIG. 1

a schematic sketch of a two-wheel air classifier according to the invention in an overall system configuration and

FIG. 2

a plan view of a tricycle air classifier with three different Sichterradeinheiten according to various embodiments of the invention and a classifier unit according to an embodiment of the invention.

First of all, reference is made to FIG. 1. Reference 1 denotes a two-wheeled pneumatic classifier. The two-wheel air classifier 1 is downstream of a filter unit 2 downstream, to which a fan 3 follows. The mass flows through the entire system run as follows:

At a product task, which is symbolized by arrow 4, the material to be classified is entered into the air classifier gravimetrically or with the aid of the supply air, which is symbolized by arrow 5, and in the classifier chamber 11 with the aid of the airflow generated by the classifier wheels 16 of the classifier units 16 in fine and coarse particles separated. The separation or sighting of the Sichtguts 4 takes place in an iterative process in the consisting of a cylindrical upper part 12 and a funnel-shaped lower part 13 classifier chamber. Up to a certain Grenzkomgröße the particles of the Sichtguts 4 are not raised up to the Sichterradeinheiten 16, but fall back after rising in the air flow and are swirling with the newly entering Sichtgut and continue to atomize in this way. Particularly heavy or large particles sink down to the lower end of the classifier chamber 11 and reach there a Nachsichter 14. The Nachsichter 14 consists of a funnel-shaped lower part 15a and a throttle-like upper part 15b. Through this structure of the Nachsichters creates a spiral flow or an "air wall", which further dissolves or disperses the particles, so that they are whirled by the existing upward air flow in the classifier chamber again in the direction of Sichterradeinheiten 16. Even heavier particles penetrate the air wall in the throttle 15b and sink to the coarse material outlet located at the lower end of the Nachsichters 14, where they are excreted from the visual process. Advantageously, in the throttle part 15b, an eccentric to the vertical axis of the classifier chamber and horizontally extending auxiliary air flow can be injected to enhance the spiral flow. Through in the direction of the spiral Flow arranged, indicated by dashed lines vanes can be achieved in particular in a two-wheel air classifier as in the example shown, an increase in performance and thus a higher throughput.

The air streams loaded with the particles which have been screened pass through the flow channels between the classifier chamber 11 and a common outlet chamber 19 which are assigned to the individual classifier units 16. The construction and arrangement of the classifier units 16 will be explained in more detail below. From the common outlet chamber 19, the fines-laden air stream flows into the filter unit 2, at which the fine material discharge 7 is located on the underside, wherein the exhaust air 8 is sucked through the filter unit 2 with a blower 3.

Referring to Figure 2, the construction of various embodiments of the Sichterradeinheit invention and its arrangement on the classifier chamber 11 an according to the invention from the classifier chamber 11 and the common outlet chamber 19 existing classifier unit 11, 19 will be described.

2, a three-wheeled air classifier is designated by 100, on the cover 25 of which there are arranged three classifier wheel modules 16, 16 ', 16 "on the cover 25. Centrally on the cover 25 of the classifier chamber 11 there is a common outlet chamber 19, to which the three Sichterradmodule 16, 16 ', 16 "connected or connectable in the case of Sichterradmoduls 16.

The two Sichterradeinheiten 16 ', 16 "are drawn in their operating position, in which they are connected via a pipe 32 and 32" on a vertical side surface facing them to the outlet chamber 19. The Sichterradeinheit 16, however, is shown in a pivoted out of the use position in a horizontal plane in a maintenance position, wherein the Sichterrad 18 of Sichterradeinheit 16 in the use position surrounding housing or the Sichterradeinheit 16 associated with the flow channel between the classifier chamber 11 and the Outlet chamber 19 forming housing has also been removed for maintenance purposes and therefore not shown. It only recognizes a bottom plate 26 on which the housing can be attached. The bottom plate 26 is fastened with circumferential rivets on the cover 25 and has a rectangular passage opening for from the classifier chamber 11 to the Sichterrad 18 toward the Sichtgut to.

The Sichterradeinheit 16 is constructed on a frame 17, on which a pivot pin 27 is mounted on the underside with a vertical pivot axis, which is held in a corresponding hinge receptacle on the lid 25 of the classifier chamber module 11, 19. The Sichterrad 18 is seated on a Sichterradachse 20 which penetrates behind the Sichterrad 18 arranged cover 28 with which the Sichterrad can be attached to a corresponding opening of the housing between the separator chamber 11 and outlet chamber 19. With the cover 28 and the pivot pin 27 is a structurally simple and maintenance-friendly and easy mounting option for the Sichterradeinheit 16 at the flow channel from the classifier chamber 11 to Auslasskammer 19 forming housing available, after loosening the attachment of the lid to the housing a simple Pivoting the Sichterradeinheit 16 from the use position in a maintenance or Sichterradaustauschstellung is possible. The Sichterradeinheit 16 has all the necessary for the operation of Sichterrads 18 components, namely a drive 21 which is connected via a yoke-shaped frame 17 with the support of Sichterradwelle 20 in Sichterradwellengehäuse 35 and its output shaft 22, pulley 23 b, drive belt 24 and Pulley 23a the Sichterradwelle 20 and thus the Sichterrad 18 drives.

After the Sichterradeinheit 18 has been pivoted to the maintenance or replacement position, it can thus be easily replaced as a whole by lifting them and thereby removes the pivot pin 27 from the corresponding hinge on the cover 25. On the other hand, it is also possible in a simple manner to replace only the Sichterrad 18 against a replacement Sichterrad and bring the unit otherwise unchanged used. Also shown is the lower half of a Abdekkung 36, with which the existing of the pulleys 23a and 23b and the drive belt 24 countershaft can be covered.

In the following, the 16 'designated, another embodiment of the Sichterradeinheit invention will be explained, wherein common parts have been designated by the same reference numerals, which, as far as not necessary for understanding, have been partially omitted.

The separator chamber unit 16 'is shown in its operating position, that is to say in a position in which the classifier wheel is located in a flow channel leading from the classifier chamber 11 into the outlet chamber 19. The flow channel is thereby formed by a housing 29 mounted on a base plate 26 'fastened to the cover 25 of the classifier chamber 11 and a tube 32 which connects the housing 29 in terms of flow with the outlet chamber 19. In the housing 29, the flow channel extends substantially in the vertical direction, wherein the flow then passes through a Siebkorb designated Sichterrads 37 and thereby changes their direction to finally open by the horizontally extending radially inwardly extending pipe 32 into the outlet chamber 19. As can be seen, the floor panel 26 'is again riveted and circumferentially riveted to the lid 25 of the classifier chamber 11. However, it would also be a screw etc. conceivable. The tube 32, however, is flanged at the mouth opening into the outlet chamber 19 and passes through the Sichterradgehäuse 29 on its side wall 30 having a corresponding orifice and extending in the vertical direction, the side wall of the outlet chamber 19 faces. The tube 32 is inserted in a sleeve 31 fixed inwardly on the side wall 30 and is kept sealed therein. The sleeve 31 may be made of an elastic material such as rubber. To bring the Sichterradeinheit 16 'from the use position in the maintenance position, a folding mechanism in the bottom plate 26' is provided, that is, the housing 29 is not shown on the hinge hinge on the radially outer side edge of the housing 29 and also not shown locks on the other Side edges on the bottom plate 26 'arranged so that the Sichterradeinheit 16' together with the housing 29 can be pivoted out of the insertion position around the axis of the hinge around in a maintenance position without the need to be solved on the pipe 32 any locks, as it only is inserted in the sleeve 31. To make available the Sichterrads it then suffices to remove the side wall 30 of the housing 29. The frame 17 of the Sichterradeinheit 16 'is attached to the housing 29 in the example shown. Also provided is a cover radially outward behind the Sichterrad so as to allow easy removal of the entire Sichterradeinheit 16 '. Alternatively, the classifier wheel unit could be inserted into a housing without such a cover with the classifier wheel shaft and the classifier wheel screwed from the opposite side.

A further embodiment of the classifier wheel unit according to the invention is designated 16 "The classifier wheel unit 16" is fastened with its frame 17 to a housing 29 "which is constructed in one piece with a floor panel or floor panel 26", for example revolving around the floor panel 26 ". welded or soldered in. The floor panel 26 "is in turn screwed at its corners to the cover 25 of the classifier chamber 11. On the vertical side wall 30 of the housing 29 "facing the outlet chamber 19, a tube 32" is flanged to the mouth opening, which connects the housing 29 "with the outlet chamber 19. The tube 29 is on the side wall of the outlet chamber 19 facing the classifier wheel unit 16" also flanged. Thus, to remove the Sichterradeinheit 16 "from the tricycle air classifier 100, it is sufficient, the screw of the bottom plate 26" and the tube 33 "(either on the outlet chamber 19 or on the side wall 30) to solve and remove the Sichterradeinheit.

At this point it should be clarified once again that in the figure only three illustrative gauge wheel units 16, 16 ', 16 "are shown for illustration purposes, and that a construction of the air classifier 100 with three same gauge units is also possible, as well as uniformity.

Of course, deviations from the embodiments shown are possible without departing from the scope of the invention.

Thus, the pivoting mechanism of the classifying wheel unit 16 could be inserted via the pivot pin 27 also in combination with the pivoting mechanism for the housing 29 in the embodiment according to reference numeral 16 'or the one-piece housing 29 ".

Claims (10)

Separate Sichterradeinheit (16, 16 ', 16 ") for a multi-wheel air classifier (1), downstream of a classifier chamber (11) and a common outlet (19) upstream attachment outside the classifier chamber (11), preferably on the classifier chamber (11 comprising: a frame (17) on which a classifying wheel (18) is rotatably mounted, a drive (21) for the classifying wheel (18) held on the frame (17) and a fastening means (27, 28; 29, 26 ', 30; 29, 26, 30, 32 ") for the frame (17), preferably on the classifier chamber (11). Sichterradeinheit (16) according to claim 1, characterized in that the fastening means (27, 28) comprises a pivot pin (27), with the Sichterradeinheit (16, 16 ', 16 ") preferably horizontally pivotable in a corresponding hinge, preferably on the Classifier chamber (11), is receivable. Sichterradeinheit (16) according to any one of the preceding claims, characterized in that the fastening means (27, 28) attached to the frame (17) Sichterrad-cover (28), with the Sichterradeinheit (16) into the flow passage between the Classifier chamber (11) and the outlet (19) protruding Sichterrad (19) sealed against the environment can be fastened. The classifying wheel unit (16 ', 16 ") according to claim 1, 2 or 3, characterized in that the fixing means (29, 26', 30; 29, 26, 30, 32") has a flow channel fixed to the frame (17) between the classifier chamber (11) and the outlet (19) forming Sichterradgehäuse (29, 26 ', 30; 29, 26, 30, 32 "), in which the Sichterrad (19) is sealed against the environment. Sichterradeinheit (16 ', 16 ") according to any one of the preceding claims, characterized in that the Sichterradgehäuse (29, 26', 30; 29, 26, 30, 32") has a bottom plate (26, 26 '), with which it sealed against the environment on the classifier chamber (11) is fastened and which has formed a mouth opening of the classifier chamber (11) in the flow channel between the classifier chamber (11) and the outlet (19), wherein the bottom plate (26 ') preferably as a is formed with a hinge and a flap provided folding bottom (26 '), wherein the hinge is preferably arranged on one of the mouth opening (31) to the outlet (19) opposite side edge of the hinged floor (26'). Separate separator chamber unit (11, 19) for a multi-wheel air classifier (1), with a classifier chamber (11) and an outlet chamber (19) arranged above it, wherein for the fluid interposition of several separate classifier wheel units (16, 16 ', 16 "), in particular one of the preceding claims, on the classifier chamber (11) outlets and on the outlet chamber (19) inlets are provided. Separate classifier unit (11, 19) according to claim 6, characterized in that on the classifier chamber (11) such fastening means for the Sichterradeinheiten (16, 16 ', 16 ") are provided that the Sichterradeinheiten (16, 16', 16") can be arranged on the classifier chamber (11) and the fastening means in particular have hinges for receiving each of the Sichterradeinheiten (16) fixed pivot pin (27), preferably for horizontal pivoting of the respective Sichterradeinheit (16). Separate classifier unit (11, 19) according to claim 6 or 7, characterized in that the fastening means receptacles for bottom plates (26, 26 ') of Sichterradeinheiten (16, 16', 16 ") in a cover (25) of the classifier chamber (11). over which the classifying wheel units (16) fluidly connected to the classifier chamber (19) are connectable. Separate classifier unit (11, 19) according to one of claims 6 to 8, characterized in that the outlet chamber (19) is provided centrally on the lid (25) of the classifier chamber (11) and one of the number of classifier units (16, 16 ', 16 ") has corresponding number of vertical side surfaces over which the Sichterradeinheiten (16) are fluidly connected to the outlet chamber (19) connectable. Multi-wheel air classifier (1) with: an air-and-separation material inlet are arranged downstream in a classifying chamber (11) fluidly several classifier wheels (18) (10), said separating wheels respectively protrude into a flow channel between the separating chamber (11) and an outlet (19), characterized characterized in that the classifying wheels (18) are each part of a classifying wheel unit (16, 16 ', 16 ") separate from the classifying chamber (11) and arranged outside the classifying chamber (11), in particular a classifying wheel unit (16, 16', 16") according to one of the preceding claims and wherein the Sichterradeinheiten (16, 16 ', 16 ") in terms of flow, preferably a common outlet chamber (19) which is part of the Sichterkammer (11) and the Auslasskammer (19) comprehensive, of the Sichterradeinheiten (16 , 16 ', 16 ") is a separate classifier unit (11, 19), in particular according to one of claims 10 to 14.

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