DE202018101769U1 - Bar cage sifter with outlet openings in the housing - Google Patents

Abstract

Stabkorbsichter (1), comprising a rotating rod basket (2), and- one of a housing (3) enclosed inlet channel, which receives in conveying air (A) suspended separating material and around the rotating rod basket (2), characterized in that the lower side of the housing (3) at least one radially outer outlet opening (10) is provided, through which on the lower side of the housing (3) existing accumulations of separating material can be blown.

Description

The invention relates to a rod basket sifter, comprising a rotating rod basket, and an inlet channel enclosed by a housing, which receives separating material suspended in conveying air and leads around the rotating rod basket.

For the separation of granular materials, it is known to suspend these in conveying air and to promote the suspended grains pneumatically in a rod basket sifter. In a rod basket sifter rotates a generally cylindrical basket, through which the conveying air can escape from the rod basket sifter. In order to flow through the bar cage, the conveying air must rotate immediately before passing through the rotating bars with the bar cage. The centrifugal forces generated thereby on the grains suspended in the rotating conveying air cause a separation of the very fine to dust-like components, which migrate with the conveying air through the rod basket, of the coarser grains, which are prevented by the centrifugal force, with the rotating conveying air through the Bar basket to kick.

The housing shape of the rod cage sifter has an influence on the separation performance. There are cylindrical housings in which the conveying air is guided from below to the rod basket, but there are also non-cylindrical housings which support a tangential flow of the rod basket. Depending on the housing shape, bottom surfaces are created on which separating material can be deposited. The deposits are not necessarily coarser particles that have precipitated out of the production air, but often also slowly build up crusts of fine material that collect in vortices or build up gradually on the wall. The deposits or the build-up of crusts or caking reduce the cross-section and the volume of the classifier, which changes the separation efficiency. As a result, another separation characteristic of the rod basket sifter is obtained, which permanently changes the grain size distribution of the separated fines.

In the German utility model DE 20 2012 003 141 U1 discloses a rod basket sifter, on the inside of the radial outer wall pneumatic guide elements are arranged in the form of overlapping sheets. Conveying air is blown in between the sheets, which assists the flow of feed flowing into the rod basket sifter and ensures that the separating stock slides along on an air chute. As a result, the speed of the separating material is not reduced so quickly and the separation efficiency of the Satabkorbsichters increases because the material to be separated is passed around the rod basket. This structure requires delicate balance control between the pressure of the pneumatic conveying air and the pressure of the air passing through the guide elements, so that the conveyance mm remains stable to the bar basket.

In the German Offenlegungsschrift DE 100 22 536 A1 discloses a rod cage sifter in which the baffles are adjustable through which air is injected through sub-channels to stabilize the flow within the rod cage sifter. Also, this structure requires a delicate balance control between the pressure of the pneumatic conveying air and the pressure of the air flowing through the guide elements air, so that the promotion mm the bar basket remains stable.

In the German publication DE 10 2014 010 045 A1 discloses a rod basket sifter, which has exclusively arranged on the inside of the radial outer wall baffles against which the separating material to bounce and should be directed in the direction of the staff basket. The sheets taught there serve as a baffle for individual Trenngutkörner.

The object of the invention is to provide a rod basket sifter available, which does not tend to add with deposited separating material or with baked fines.

The object of the invention is achieved in that at least one radially outer outlet opening is provided on the lower side of the housing through which accumulations of separating material present on the lower side of the housing can be blown out. Further advantageous embodiments are specified in the subclaims to claim 1.

According to the invention, provision is therefore made to arrange at least one outlet opening in the housing of the bar basket in the region of the inlet channel which encloses the entire bar cage. Through this outlet, the pneumatic conveying air for the separating material to blow out accumulations. In operation, especially on a floor surface precipitated separation material collects. On the wall surfaces, the flow velocity due to the wall friction is usually very low, so that clusters can grow in this area and thus affect the separation performance of the rod basket sifter. The arrangement of at least one outlet opening or of a plurality of outlet openings, which are distributed radially, the conveying air blows out these accumulations. Although a pressure loss must be accepted by blowing out, but the advantage of blown-up clusters weighs the disadvantage of additional pressure drop.

In an embodiment of the invention, it may be provided that the housing enclosing the inlet channel has baffle plates on the inner side facing inside in relation to an axis of rotation of the rod basket on the inner side, on which the conveying air receiving the separating material is derived from the housing wall. According to this embodiment of the invention is therefore vorgehsehen to arrange baffles on the inside of the outer wall in the housing of the bar basket in the region of the inlet channel, which encloses the entire bar cage. At these baffles, the pneumatic conveying air for the separating material to form vortices or be derived from the outer wall to form a laminar flow. The baffles interfere with the inflowing conveying air, so that build up on the outer wall due to the vortex or the redirected laminar flow no caking of fines. The baffles prevent the formation of a near-wall and therefore low-flow zone, within which the caking can increase due to the low flow velocity. All viscous media, including air, tend to have a very low flow rate due to friction when flowing through channels with static walls on the walls. With increasing distance from the wall, the laminar flow velocity approaches the flow velocity in the center of the channel enclosed by a housing. The aim of this embodiment of the invention, the laminar flow, which actually leads to a flow with low pressure drop over a predetermined flow path, deliberately interfere with the outer wall area to prevent the low wall speed. As a result, less caking of fine material is formed. Essential to the invention is that the baffles are flanked by the outlet openings, that are arranged in the vicinity. These discharge openings have the effect that on the baffles of the inside of the radially outer wall dropped separating material is conveyed on the ground to the outside, where it falls, for example, through a pipe in the gap between the inlet channel and bar basket, where also the retained by the Stabkorbsichter coarse material is conveyed , The outlet openings on the lower side thus ensure that heaps of separating material do not build up on the bottom of the inlet channel instead of caking on the walls.

According to an embodiment of the invention, it is provided that the outer housing wall of the housing enclosing the inlet channel is helical or helical in relation to an axis of rotation of the rod basket, so that the free cross section of the inlet channel tapers with progressive guidance around the rod basket. The taper of the inlet channel leads to a tangential supply of the conveying air with the separation material suspended therein that the conveying speed remains the same. The conveying air escapes through the rotating rod basket, which would slow down the flow velocity at a profile of the same size over the distance. The helical or spiral shape of the inlet channel with a tapering of the profile when flowing around the rod basket leads to an approximately constant speed of the conveying air, so that no low-speed zones form in the rod basket, in which caking or accumulations form. The invention presented here is suitable for use with rod basket separators in which the rod cage rotates about a vertical axis. The conveying air is brought tangentially with the material to be separated to the bar basket. The tangential guide leads to an inlet channel which presents a floor or floor-like housing wall on which clumps can ever form. In rod basket sifter with horizontal axis of rotation and tangential flow the risk of the formation of clusters is not given for lack of a suitable floor space.

The bottom surface of the bar cage sifter may be horizontal or inclined or curved. It is provided according to the embodiment of the invention that the lower housing wall of the inlet channel enclosing housing is horizontal, or inclined to an angle of less than 45 ° to the horizontal, the lower housing wall is optionally inclined only in part to the horizontal or different inclinations to the horizontal. If the floor is inclined more than 45 ° in the entire area, then there is no problem that accumulations arise.

Stabkorbsichter of the type described here are used in Kreislaufmahlanlagen, especially in such Kreislaufmahlanlagen that finely grind raw meal for cement production or finished cement clinker. Accordingly, the invention also relates to a Kreislaufmahlanlage having the Stabkorbsichter described here.

• 1 eine Explosionsdarstellung eines erfindungsgemäßen Stabkorbsichters mit den wesentlichen Teilen eines Stabkorbsichters,
• 2 die Explosionsdarstellung aus 1 mit eingezeichneten Pfeilen, welche die Ableitung der Förderluft darstellen,

The invention will be explained in more detail with reference to the following figures. It shows:

• 1 an exploded view of a Stabkorbsichters invention with the essential parts of a Stabkorbsichters,
• 2 the exploded view 1 with arrows, which represent the discharge of the conveying air,

In 1 is an exploded view of a Stabkorbsichters invention 1 with the essential parts of the rod basket sifter 1 displayed. Rod basket sifter 1 includes the central rod basket 2 , and a housing 3 that has a floor area 4 having, a radially outer housing wall 5 and a housing cover 6 , the one exhaust duct 8th receives. In the assembled state, the rod basket rotates 2 around the dashed lines, vertical axis, wherein conveying air with suspended therein separating material in the housing 3 through the opening 11 enters while tangent to the rod basket 2 is introduced. Only in an embodiment of the invention are baffles 9 on the inside of the radially outer housing wall 5 provided, which the laminar flow of the conveying air in the region of the radial outer housing wall 5 deliberately disturb. Dropped or precipitated from the conveying air separating material is arranged by arranged at the bottom of the housing outlet openings and indeed near the outer housing wall arranged outlet openings 10 , which can be equipped with a corresponding plate to form a nozzle. The sheet metal is arranged above the discharge opening like a half-roof and tapers the cross section between the opening of the sheet and the free surface of the discharge opening.

In 2 is the exploded view 1 with arrows drawn indicating the discharge of the conveying air A represent, depicted. Here are the same reference numerals for the same elements of the rod basket sifter 1 , The conveying air A enters through the opening 11 in the case 3 of the rod cage sifter 1 one. The radially outer portions of the conveying air A encounter the optional baffles 9 where they swirl or form a laminar flow. Essential to these optional baffles is the deliberate disturbance of the approaching zero flow velocity on the inside of the radial outer wall 5 if they do not affect the flow baffles 9 having. In the area of baffles 9 Separation material drops down or falls out of the conveying air A out. The precipitated separation material collects on the floor surface 4 and can form clusters of separating material there. According to the invention is therefore provided, on the lower side of the housing 3 at least one radially outer outlet opening 10 is provided by which on the lower side of the housing 3 existing accumulations of separating material are blown out, as by the at the outlet openings 10 drawn arrows is recognizable.

LIST OF REFERENCE NUMBERS

1

Rod basket sifter

2

rod basket

3

casing

4

floor area

5

outer housing wall

6

housing cover

8th

exhaust duct

9

baffle

10

outlet

11

opening

20

opening

A

conveying air

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202012003141 U1 [0004]
• DE 10022536 A1 [0005]
• DE 102014010045 A1 [0006]

Claims (7)

Stabkorbsichter (1), comprising - a rotating rod basket (2), and - one of a housing (3) enclosed inlet channel which receives in conveying air (A) suspended separating material and around the rotating rod basket (2), characterized in that the lower side of the housing (3) at least one radially outer outlet opening (10) is provided, through which on the lower side of the housing (3) existing accumulations of separating material can be blown. Bar cage sifter to Claim 1 , characterized in that the housing (3) enclosing the inlet channel has baffle plates (9) pointing inwardly on the inside facing baffle plates (9) on the inside of the housing (5) radially in relation to an axis of rotation of the bar basket (2), on which the baffle material accommodates the separating material Conveying air (A) is derived from the housing wall (5). Bar cage sifter to Claim 1 or 2 , characterized in that the outer housing wall (5) of the inlet channel enclosing housing (3) with respect to an axis of rotation of the rod basket (2) is helical or helical, so that the free cross section of the inlet channel with progressive leadership to the rod basket ( 2) tapers. Bar cage classifier according to one of Claims 1 to 3 , characterized in that the rod basket (2) rotates in the proper use of Stabstabsichters (1) about a vertical axis of rotation. Bar cage classifier according to one of Claims 1 to 4 , characterized in that the lower housing wall of the inlet channel enclosing housing a) horizontally, or b) is inclined to an angle of less than 45 ° to the horizontal, wherein the lower housing wall is optionally inclined only in parts to the horizontal or different inclinations to the horizontal. Bar cage classifier according to one of Claims 1 to 5 , characterized in that the lower housing wall of the inlet channel enclosing housing a) is flat, b) forms a cone, or c) has an inwardly curved and extended solid structure. Kreislaufmahlanlage for grinding granular material, comprising a rod basket sifter according to one of Claims 1 to 6 ,

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