DE915072C - Device for granulating powder or grit-shaped material - Google Patents

Description

Device for granulating powdery or gritty material The invention relates to a device for the granulation of powder or grits Good; in particular cement raw meal, in which several with different in a novel way Circulating speed of rotating granulating plates in a known inclined position are arranged concentrically one above the other or one inside the other.

Granulating raw meal by means of a rotating granulating plate inclined with respect to the horizontal is known. This process has found general acceptance in the cement industry for shaft kiln operations, for example. The devices that have hitherto only been used in a single-plate arrangement are essentially the same in terms of their basic construction, but, as the size increases, they show an increasingly unfavorable relationship between the increase in working volume and the achievable granulation performance. This is due to the fact that with increasing plate size, ie with larger plate diameter in order to maintain the optimal outermost peripheral speed, the speed of the granulating plate is approximately in the practical order of magnitude of 1 5 rev / min. to tz rev./min. or even 9 revs / min. has to be reduced, whereby the speed in the middle of the plate is so low under certain circumstances that no more deformation or granulation work is done here. The middle surface of the plate therefore turns out to be a working surface, and it has been shown in practice that, for example, a three-fold increase in volume of the plate corresponds to only double the granulation output. Or in other words: the specific surface output of the plate decreases with increasing plate size. This in turn decreases conditionally extreme, economically just acceptable dimensions, which are currently around 2. $ to 3 m in diameter.

Recognizing these shortcomings, several have been suggested Granulating plates to be switched one after the other, with the. -a first plate coming Granules fall into a second plate below, in which they are further Circulation are solidified in order to then proceed to further processing. These Arrangement that does not represent anything other than a cascade summation -the disadvantage that it requires a considerable construction effort, without: thereby the To increase the granulation performance significantly.

In contrast, the invention provides an improvement in such a way that two granulating plates arranged concentrically one above the other or one inside the other are used which, with different plate diameters, rotate with raw meal on preferably both plates, each with different operating speeds. Here, the inner or smaller plate is driven at a higher rotational speed than the outer one, and the number of revolutions normally used in practice, for example between 1 5 and 9 rev / min. lie, adhered to. The plates are provided with edges in a manner known per se, but the inner plate according to the invention can be designed either with or without an edge, depending on whether a longer or shorter stay of the granules in the central zone is desired or not . Likewise, according to the invention, the axial distance between the plate surfaces can either be greater or smaller than the maximum thickness of the finished granules, depending on whether or not granules or raw meal are allowed to pass through the space delimited by the plates. The plates can also be arranged one inside the other in such a way that the upper plate surfaces lie in the same plane. To prevent the ingress of raw meal or granules into the bearing system of the plate arrangement or between the plate surfaces themselves, suitable means such as deflector plates, vent openings or the like are provided, which are described in more detail below.

. The structure. the concentric plate arrangement according to the invention a suitable frame and the type of drive can be identified with the known Means of technology accomplish in different ways and needs because not in itself part of the invention; not to be described in detail: Noticed is only that a pivoting also in the case of the multiple granulating plate according to the invention the plate arrangement is provided opposite the horizontal or floor plane.

The invention is illustrated schematically in three examples in the drawings. Here, Fig. 1 is a plate-shaped granulator with two concentrically one above the other, revolving around granulating plates, both of which are provided with edges, and whose plate surfaces have a spacing in the axial direction that is greater than the maximum thickness of the finished granules, Fig. 2 a granulator similar to that of Fig. 1, but with the difference that the inner or smaller plate is rimless and that the axial distance between the plate surfaces is also smaller than the maximum thickness of the fully formed granules, Fig. 3 a plate-shaped granulator in which the granulating plates are one inside the other are arranged. In the figures, the parts that remain the same are each provided with the same reference numerals. In the case of the granulator according to FIG. is arranged in such a way that the same can be swiveled as a whole about the shaft 2 in a desired proportions Ge, This, in by the arrows X, X indicated '. The outer or larger plate 4 is initially placed on a hollow axle 5 which rotates in the pivotable mounting 3. The axis 6 of the inner or smaller plate ¢ ', which, as can be seen, is held at a distance from the plate 4 that is greater than the maximum thickness of the finished granules, is also rotatably accommodated in the hollow axis 5. The ability of the hollow axle system 5, 6 to rotate is ensured by ball bearings 7 placed in between, while the drive can take place, for example, via differently translating pinions β and gears 9. Of course, any other type of drive commonly used in technology for such purposes can also be used.

The plates 4, 4 'are provided with edges i o and i i, which are preferably are mechanically adjustable; and their edge height in adaptation to the most favorable in each case Granule ejection is different. To prevent the penetration of granules and / or raw meal in the: to prevent the bearing system of the plate arrangement, as under 12 to see, the hollow axle 5 over the working surface of the plate 4 also to just below the plate surface 4 'extended or raised, with for further shielding additional capsule bearings between the hollow axis 5 and the underside of the plate 4 ' 26 can be arranged with °, which are also used for centering. Furthermore, are for the same purpose on the underside of the plate 4 'not all the way to the top of the plate 4 reaching deflector plates or the like. i 3 arranged, whereby a kind of L.abyrinth lock against the running storage system is being created. Such deflection organs can additionally, As shown for example under 14, also arranged in further radial distances be, whereby the degree of filling of the space formed between the plate surfaces can be restricted as required. The raw meal task takes place from the bunker B via the two feed channels 15 and 16, while the attachment of the Good things are brought about in a manner known per se by the Be-ries-elungsz, stabbers 17 and 18 will. The finished granules are then used for further processing via a discharge chute 19 fed.

The granulating plate according to FIG. 2 basically corresponds to the embodiment according to Fig. 1, only with the difference that here with the inner or smaller plate 4 'the edges are omitted, and that the distance between the plate surfaces continues is smaller than the maximum thickness of the finished granules.

Such an arrangement may be desirable, for example, where for special reasons of the properties of the raw material to utilize the entire volume of the plate only a slight difference in the plate rotation speeds required is. In the arrangement of the granulating plates according to Fig. 2 are to keep the bearing system free of penetrating raw meal and / or smaller granules except for deflector plates 13, 14 preferably also drill holes 23, 24 cut out on that part of the plate ¢, which is covered by the plate 4 '. Through these holes between the Small granules and raw meal arriving on the plate fall out into a tub 25, from where they are carried away (in a manner not shown in more detail here). To the Can shield the space between the plates against the axial bearing system in a similar way, as already shown in FIG. 1, additionally encapsulated running bearings 26 are arranged with the centering in addition to their sealing effect support the concentric plate arrangement. The raw meal is given up again from the bunker B via two feed chutes 15, t 6 or via just one Feed channel 16, while the wetting is carried out by just one sprinkler 17 is brought about.

The gra; nulator according to Fig. 3 differs from the one already described Arrangements simply by building the plates ¢ and 4 'inside one another, in such a way that the The working surfaces of the plates are in the same plane. The air gap between the In this case, plates is expediently bridged by an annular tab 28 for shielding purposes. In addition, in the lower or outer plate 4 there are again locking holes 23, 24, through .the penetrating granulating dust or the like. Using a scraper 29, 3o, which are attached to the underside of the plate ¢ ', is thrown out.

The functionality of the arrangement according to the invention is that the core formation of the granule takes place on the faster rotating inner plate, their growth and structural consolidation with the addition of raw meal then in the second or the slower rotating telleir is brought about. The distribution achieved in this way lies on the one hand in an improvement of the spec. Area performance of the plate arrangement with a moderate space requirement and on the other hand in the possibility of the outer diameter go beyond the dimensions achievable up to now. By both features an increase in the capacity of the granulator is achieved in each case.

The granulating device shown here is according to the invention except in the case of shaft furnace operation, preferably also in conjunction with a Lepol furnace instead of the girder drums commonly used there.

It goes without saying that the construction details Numerous changes and modifications are still possible within the scope of this inventive concept. For example, the type of drive for the concentric plates of your The type of drive shown herein may be different by about the outer plate through 'a ring gear arranged below the same and the inner plate through with this gear rim drive coupled adear also independent drive means in rotation is set, or the different speed of rotation of the plate .also by means of a correspondingly geared planetary gearbox between the drive axles be brought about. Likewise, the pivotability of the entire plate arrangement can also may also be realized by means other than those shown herein. Furthermore can possibly also more than two concentric plates, each with different ones Speeds are used.

All of these have no influence on the idea of the invention as such Design changes and modifications are of course within the scope of the invention included and are accordingly covered by the claims.

Claims (22)

PATENT CLAIMS t. Device for granulating powder or grits Good, especially raw cement meal, characterized by several, for example two Rotating granulating plates arranged concentrically one above the other or one inside the other (4, ¢ ') of different diameters, which in a known inclination with different Circulate the number of operating tours. 2. Device according to claim 1, characterized in that that the upper or inner granulating plate (4 ') is smaller in diameter than the lower one or outer granules @ erbeller (¢). 3. Apparatus according to claim 1 or 2, characterized characterized in that the upper or inner plate (4 ') has a higher number of operating speeds is driven as the lower or outer plate 4. Device according to the claims t to 3, characterized in that the plates rotate in the same direction. 5. Device according to one of claims 1 to 4, characterized in that the axial distance the plate surface is greater than the maximum thickness of the finished granules: 6. Device according to one of claims 1 to 4, characterized in that the axial Distance between the plate surfaces smaller than the maximum thickness of the molded granules is. 7. Device. According to claims i to 5, characterized characterized in that the working surfaces of the plates are in the same plane. B. Device according to one of Claims 1 to 5, characterized in that the granulating plates are provided with edges (10, 11) of the same or different edge heights. 9. Device according to one of claims i to 7, characterized in that the smaller or inner plate (4 ') is formed without edges. ok Device according to Claim 8 or 9, characterized in that the edges (i o, i i with respect to their edge height are adjustable. i i. Device according to one of claims i to io, characterized in that the relative rotation of the plates (4, 4 ') by a medium roller bearing (7) @od. Like. Centered hollow axis system (5, 6) takes place, the for example via gears (9) and pinion (8) different gear ratios is switched to a common drive. 12. The device according to claim i i, characterized in that the hollow axle system together with drive means and granulating plates mounted on a frame (i) and together around one in this gesture frame mounted shaft (2) is pivotable. 13. The apparatus of claim i i or 12, characterized characterized in that the drive of the Hiohiachsensystems (5, 6) and thus rigid connected Gran: ulierteller takes place via a planetary gear. 14. Device according to claim i i, characterized in that each of the granulating plates for itself is driven alone, for example the drive of the outer plate in in a manner known per se via a toothed ring arranged on the underside of the same takes place while the inner plate is driven axially. 15. Device according to one of claims i to 14, characterized in that to prevent penetration of raw meal and / or granules in the axial flow flag system (deflector plates 13, 14, 15) and / or scraper (29.3o) on the underside of the inner or smaller plate (¢ ') and, if necessary, additional encapsulated running bearings (26) between the underside : the inner plate (4) and the free end face of the hollow axle (5), arranged are. 16. Device according to one of claims i to 15, characterized in that hole openings (23, 24) are recessed in that part of the lower plate (4) which is covered by the upper plate (4 '). 17. Device according to one of the Claims i to 6, 8 to 16, (characterized in that likewise. For shielding of the axial bearing system, the hollow axle (5) over the lower pelletizing plate (4) pulled up or extended out to just below the, upper granulating plate (4 ') is. 18. A method for using the device according to any one of claims i to 17, characterized in that the raw meal through simultaneously on both plates two separate feed channels (15, 16) is abandoned. i g. Method of application the device according to one of claims i to 17, characterized in that the Raw meal fed in a known manner only through a single feed channel (16) will. 2o. Method for using the device according to one of Claims i to 17, characterized in that the wetting agent is produced by two separate atomizers (17, 18) is trickled onto the granulated material located on both plates. 21. Method for using the device according to one of Claims i to 17, characterized in that characterized in that the wetting agent in a known manner only by one single atomizer (17) trickled onto the granulated material located on the plates will. 22. Device according to one of claims i to 17, characterized by their Use as a pre-treatment device, which is connected upstream of a Lepol furnace.