DE19651876A1 - Sieve system for removing foreign matter from gas flows - Google Patents

Abstract

The arrangement consists of a housing (2) with an inlet (15) which is connected to eg. a pulverising machine. The housing has the following filter sections which are mounted behind one another in the direction of flow of the gas. The cross-section of the housing increases taken in the direction of flow of the gas. The direction of flow of the gas is changed in the first filter so that coarse material is separated by its inertia and drops into a drain (6). In the second section the speed of flow of the gas is reduced in a calming section so that more material is separated due to its high specific gravity and falls in a drain (8). Finally the gas flows through a fine filter (11) which is mounted at the top of the housing. Material from this filter is removed from a drain (10).

Description

The invention relates to a classifying device for classifying solid matter from a strand adhered gas / solid stream after a comminution device.

Sighting devices are used for. B. used after grinding or crushing to a certain grain size or a certain grain size range from a gas / solid to separate electricity and feed this material for further use.

There is a view from the EVT publication "Impact wheel mills, type <N <and <S <", edition 6/87 device for classifying solid matter from a streaked gas / solid stream after a beater wheel mill. This known viewing device acts it is a box sifter with deflection and gravity sifting, which consists of the coarse material separates the gas / solid stream coming from the mill and the fine material together provides with the carrier gas stream of a combustion chamber. The separated coarse material becomes fed back to the beater wheel mill via a return line. The one in the sighting device The gas / solids flow introduced is dependent on the mode of operation of the upstream Impact wheel mill or other mills, such as. B. a tube mill, uneven or streaky distributed over the flow cross-section, d. H. the distribution of the through the alley The solid carried by the current is in the supply line to the flow cross-section Box sifter as well as uneven in the box sifter itself.

From the above-mentioned document is a further sighting device after a beater wheel mill known. This known classifying device is designed as a centrifugal classifier and belongs to the class of static classifiers.

From the yearbook of steam generator technology, 5th edition 1985/86, Vulkan-Verlag Essen, Pages 192-202 are known sighting devices which are connected downstream of bowl mills. At this known sighting device is a gyroscope that determines a good Separate the grain size distribution from a gas / solid stream. Gyro classifier belong to the genus of dynamic classifiers.  

The recently increased requirements for the fineness of the product, eg. B. fixed fossil fuels, limestone and the like, and the improvements required thereby Selectivity of the viewing devices downstream of the grinding devices, in particular with prevailing uneven, d. H. streaky gas / solid flows, who which the already known viewing devices no longer do justice to.

It has been shown disadvantageously that the selectivity of vision devices with deflection and Gravity screening is too bad for the increased requirements and that at Sichtinrich with static classifiers (centrifugal classifiers) or dynamic classifiers (gyroscopic or combination sifters) are formed by the uneven flow to the sifter cor bes by the gas / solid stream in the form of solid strands the classification effect and thus the separating power of the classifier is deteriorated and also the increased requirements not fulfilled. A regulation of the classifying effect via the speed of the classifier basket when using a dynamic classifier is under the aforementioned boundary conditions hardly possible anymore.

Furthermore, an equalization of the streaked inflow with respect to a ho homogeneous solids distribution on subsequent pipe systems not possible.

It is therefore an object of the present invention to provide a viewing device which avoids the aforementioned disadvantages.

The object is achieved by the entirety of the features of patent claim 1.

Advantageous embodiments of the invention can be found in the subclaims.

The following advantages result from the solution according to the invention:

• - Sighting streaky gas / solid flows with high selectivity and Visibility with:
• a) low pressure loss and wear of the sighting device,
• b) simultaneous realization of a defined quantity and fineness distribution the lines downstream of the respective classifiers when two are used or several sifters.

The invention is explained in more detail using the description and the drawing.

It shows

Fig. 1 shows a schematic representation of a longitudinal section through an inventive vision device with a dynamic sifter with a vertical longitudinal axis,

FIG. 2 to FIG. 1, but with two dynamic sifters,

Fig. 3 as in FIG. 2, but with baffles,

FIG. 4 to FIG. 2, but dynamic sifter with a non-vertical longitudinal axis,

Fig. 5 A view of FIG. 1.

The classifying device 1 of the invention according to Fig. 1 consists of a separator housing 2 with a vertical Sichtergehäuselängsachse, a gas / solids supply line 6 with a kick head 7, a coarse material outlet 8 with return line 9 to the unillustrated grinding or crushing device 16, a dynamic Classifier 11 , e.g. B. a centrifugal classifier with drive device 12 in a vertical arrangement and with the fine material outlet line 10 going out from the classifier 11 .

The coming from the crushing device 16 , not shown, gas / solid stream 15 is introduced through the vertically formed feed line 6 and the inlet head 7 according to the invention in an area 3 for caution in the classifier housing 2 . In the self-sealing area 3 for pre-screening, which occupies the lower part of the separator housing 2 , a deflection and gravity screening of the gas / solids stream 15 takes place. The coarse material separated out is fed through the outlet 8 and the return line 9 again to the reduction device 16 .

The sifter housing 2 of the sifting device 1 according to the invention according to FIG. 1 is designed in such a way that in the direction of flow of the sifter housing 2 through the gas / solids flow 15 the area 3 for precaution is a calming zone 4 , which is essentially the middle part of the sifter housing 2 takes, and then a sight zone 5 , which occupies the upper part of the classifier housing 2 , follows.

The gas / solids flow 15 flowing upward from the area 3 of the pre-screening, having solid strands, is homogenized within the calming zone 4 and can then be classified in the viewing zone 5 by the classifier 11 with high selectivity. The separation limit and thus the product fineness of the material to be classified can be variably adjusted by regulating the speed of the classifier basket driven by the drive device 12 . The visual or fines together with the gas flow, the Sichteinrich device 1 through the outlet line 10th

Instead of the illustrated an outlet conduit 10 can also contain two or more Austrittslei obligations 10 after the dynamic classifier 11 depart. Furthermore, the dynamic classifier 11 can also be arranged centrally or elsewhere as shown in FIG. 1 within the viewing zone 5 of the classifier housing 2 . The same also applies to the arrangement of the static separator (s) 13 and their outgoing outlet lines 10 .

The equalization of the gas / solids flow 15 within the settling zone 4 of the classifying device 1 of the invention shown in FIG. 1 is effected in that in Durchströ flow direction of the gas / solids flow 15 seen the cross-section of the classifier 2 is larger than the cross section of the feed line 6 is. Thus, the gas / solid stream 15 can expand within the classifier housing 2 and the flow rate can be reduced. An equalization of the solids distribution in the carrier gas flow over the cross section occurs after the pre-screening in the calming zone 4 .

Instead of a dynamic classifier 11 , the classifying device 1 according to the invention can also be designed with two dynamic classifiers 11 according to FIG. 2 or several classifiers 11 (not shown). The classifier 11 can then be operated either with the same separation limit or with different separation limits as well as with the same or with different throughputs. In the case of different cut-off the downstream process means material to be separated is provided of varying fineness through the outlet conduits 10 degrees. Instead of one outlet line 10 per classifier 11 , two or more can also be arranged.

Fig. 3 shows a view of device 1 according to the invention with possible baffles 14, 17.

Contrary to the vertical inlet or feed line 6 shown in FIGS. 1 to 4, this can also be brought to the inlet head 7 of the classifier housing 2 at an angle obliquely from below, horizontally or at an angle obliquely from above. Is Erfindungswe sentlich thereby that the inlet head 7 is formed such that the through feed line 6 zoom out gas / solids flow 15 in the Sichtergehäusebereich 3 for Vorsich processing of the stream 15 fed, or is deflected. This is done using known measures such as the use of baffles and the like to minimize pressure losses and vortex formation.

Furthermore, contrary to the dynamic classifier 11 shown in FIGS. 1 to 3, static classifier 13 , e.g. B. centrifugal classifier can be used, the classifying axis also extends vertically.

FIG. 4 shows a viewing device 1 according to the invention, which is formed in the viewing zone 5 with a non-vertically arranged dynamic classifier 11 . According to the requirements, a plurality of classifiers 11 can also be arranged next to or one above the other within the viewing zone 5 .

The sifter housing 2 according to FIGS . 1 to 4 is preferably formed in the region 3 for pre-screening (deflection and gravity screening) with a funnel, the lower end of which opens into the coarse material outlet 8 .

The supply line 6 can be arranged with respect to the arrangement of the entry into the classifier housing 6 in addition to the design shown in FIG. 5 - the supply line 6 opens eccentrically into the classifier housing 2 - in such a way that the supply line 6 either in the center or in another off-center Position opens into the classifier housing 2 . That is, in the case of an eccentric arrangement, the center axis of the feed line 6 does not intersect the longitudinal axis of the classifier housing 2 , whereas, in the case of a center arrangement, the two axes intersect (are identical).

Reference list

1

Sighting device

2nd

Classifier housing

3rd

Classifier housing, precaution area

4th

Classifier housing, calming zone

5

Classifier housing, viewing zone

6

Supply line

7

Entry head

8th

Coarse material outlet

9

Return line to the shredding device

10th

Fine goods or sighted goods outlet line

11

Dynamic classifier

12th

Drive device for classifiers

13

Static classifier

14

Control device

15

Gas / solid stream

16

Grinding or crushing device

17th

Control device

Claims (10)

1. Sifting device for sifting solids from a streaky gas / solids stream after a comminution device, consisting of a sifter housing ( 2 ) with in order of flow through the gas / solids stream ( 15 ) hen,

• an area designed as a deflection and gravity classifier for pre-screening ( 3 ) with coarse material outlet ( 6 ) in the lower area,
• - a calming zone ( 4 ) for the equalization of the streaky gas / solid stream ( 15 ) in the middle area,
• - A viewing zone ( 5 ) with at least one classifier ( 11 , 13 ) in the upper region, the classifier ( 11 , 13 ) being formed with at least one fine material outlet line ( 10 ),

and with a feed line ( 6 ) opening into the classifier housing ( 2 ) with a step head ( 7 ) which guides the gas / solids flow ( 15 ) into the area of the pre-sealing ( 3 ), the feed line ( 6 ) the comminution device ( 16 ) connects to the inlet head ( 7 ) of the viewing device ( 1 ). 2. Sifting device according to claim 1, characterized in that the cross section of the sifter housing ( 2 ) in the flow direction of the gas / solids stream ( 15 ) is larger than that of the feed line ( 6 ). 3. Sighting device according to claim 1 or 2, characterized in that the Sichterge housing ( 2 ) seen in the flow direction of the gas / solid stream ( 15 ) has a rectangular cross section. 4. Sighting device according to one of the preceding claims, characterized in that the longitudinal axis of the sifter housing ( 2 ) is vertical. 5. Sighting device according to one of the preceding claims, characterized in that the sifter is designed as a static sifter ( 13 ) with a vertical axis. 6. Sifting device according to one of claims 1 to 4, characterized in that the sifter is designed as a dynamic sifter ( 11 ) with a vertical drive shaft and drive device ( 12 ). 7. Sifting device according to one of claims 1 to 4, characterized in that the sifter is designed as a dynamic sifter ( 11 ) with a non-vertical drive shaft and Antriebsein direction ( 12 ). 8. Sifting device according to one of the preceding claims, characterized in that the sifter housing ( 2 ) is designed with guide means ( 14 , 17 ). 9. Sighting device according to one of the preceding claims, characterized in that the center axis of the feed line ( 6 ) is arranged eccentrically to the longitudinal axis of the classifier housing ( 2 ). 10. Sifting device according to one of claims 1 to 8, characterized in that the center axis of the feed line ( 6 ) is arranged centrally to the longitudinal axis of the sifter housing ( 2 ).