DE2010876A1 - Two stage cement cooler - Google Patents

Abstract

Two stage cooler for combustion products leaving a cement kiln in which (a) the first stage is a direct a action cooler not larger than sufficient to preheat the air of combustion (b) the second stage is an indirect cooler with several chambers having upper entrance and lower exit parts and a large number of channels for the refrigerant sharply inclined with respect to the direction of fall of the product through the cooling chamber. The second chamber has a mechanism controlling the admission rate. A crusher is heated between the first and second stages of the cooler.

Description

Extraction device for a cooling shaft The invention relates on an extraction device for a cooling shaft, by means of which the top of the cooling shaft abandoned loose material that passes through cooling surfaces in the shaft is withdrawn at the bottom In particular, the extraction device should be suitable for such cooling shafts be that a multitude of coolant flowed through transversely to the sink rate of the good Have channels.

The material should be in all cross-sectional areas of the shaft as far as possible have the same sink rate, so that the residence time of all particles as possible is equal to. Since the rate of descent is a function of the trigger, so must if this purpose is to be achieved, the effect of the trigger in all Cross-sectional areas be roughly the same. The invention is based on the object to create an extraction device that meets these requirements.

The solution according to the invention consists in that the trigger device extends the full or nearly full horizontal width or length of the shaft.

Advantageous embodiments of such a withdrawal device are explained in more detail below with reference to the drawing #####; show in it: Fig. 1 shows a cross section through a cooling shaft without an extraction device and Fig. 2 the associated longitudinal section, limited to the lower part of the schaciits and the trigger; Fig. @ Shows a cross-section corresponding to FIG through the lower part of the shaft with another extraction device and FIGS. 4 and 5 illustrate a corresponding cross section through a third Embodiment and a plan view of one used in this device Detail.

The shaft cooler is from the actual shaft 1 with feed head 2, cooling tubes 3 and the channels 4 supplying or connecting the cooling tubes Blower 5 pictures. The shaft is closed at the bottom by the bottom 6 with openings 7, which is just as stationary as the shaft itself. As you can see in the two drawings removed, the openings are evenly distributed over the entire floor area. Their Grb13 = e is related to the grain size of the property and its willingness to trickle chosen so large that bridging is as good as impossible.

Under the floor 6 is a second floor 8, the same Uahl from Has holes in the same arrangement as the bottom 6. It is at one in cross section (Fig. 1) Funnel-shaped container 9 attached, which in turn on rollers 10 on Rails 11 rests, which are provided on shoulders of the foundation. The container is prismatic in its longitudinal direction (Fig. 2) and has a bottom Opening under which a conveyor belt 12 runs.

It can be seen that the second floor 8 together with the floor 6 movable with the container 9 in the longitudinal direction and adjustable depending on the setting of the second bottom, the local ratio of the openings i upper floor 6 to which in the lower floor 8 one is in another. In Fig. 2 shown End position of the lower bottom 8, the openings are exactly offset from one another means under each opening 7 of the upper floor there is an uninterrupted one Piece of the lower floor. This impenetrable piece is so large that from the edges of the openings 7 out @ ende pouring surfaces of the uninterrupted Bottom parts 15 between the openings 14 of the lower bottom subsoil Guts within the limits of these bottom parts 13 lie. The goods can therefore not leak. if the container 9 with the bottom 8 is moved so far that one of the slope surfaces reaches the associated opening 14, the material begins to flow out. The withdrawal speed @@ becomes bigger the closer you get to the fully open position, in which are the openings 7 of the upper floor above those of the lower floor. this is the other end position. By setting the container @ with the bottom 8 you can thus every reasonable run-out speed can be achieved when bridging @e - @@@ is entet, the bottom 8 can also move slightly to and fro @@ an adjustable middle @@ sets @ the @ @@. @@@@@@ @@ nen, @@@ n periodically a short back and forth movement of the floor at shorter or longer intervals 8 takes place.

In the embodiment of FIG. 3, the schaclit ends at the bottom in two trough-like ones, over the horizontal one EW-e shaft The same cross-section preserving funnels 20, each of which has a narrow outlet opening 21 likewise extending over the entire length. Underneath each is a tilting table 22 of a corresponding length with a constant cross-sectional shape, which can be pivoted and adjusted under certain circumstances. In the horizontal position (Fig. 3 left) the pouring surfaces of the crut sloping down on the table never extend beyond its edges, which are expediently formed by upstanding edges 24 which can be easily replaced with wear and tear the geometric relationships and thus the run-out characteristics.

If such a tilting table is placed at an angle (FIG. 3 right), it gives way he stood back of this table behind the corresponding pouring surface, so that material can flow out.

Shoot through the material is safely prevented and more even The run over the full length is achieved when the table is slightly swinging Movement about the axis 23 is held. The run-out speed can be changed by changing the tilt angle and / or the oscillation amplitude and / or the oscillation frequency and / or the zero position around which the oscillation takes place.

The term vibration includes the case that the table periodically stands still and is moved.

As in the case of FIGS. 1 and 2, the outflowing material falls into a container 25, which in this case can be arranged in a stationary manner and the goods on the conveyor belt 12 steers. One or more conveyor belts can also be opened in the discharge area the tilting disc be arranged. When promoting in two different directions comes into consideration, a conveyor belt can be arranged on both sides under each tilting table be. The tilting direction of the tilting tables then determines which belt the goods fall on. The tilting tables do not necessarily have to be level. You can also on the top be partially cylindrical. In the trigger device according to FIGS. 4 and 5 is the shaft at the lower end is formed in the same way as in the inter-reference on Fig. 3 described embodiment. Under the openings 21 is also a again Table arranges; however, this table 30 is stationary. Its long edges lie near the line on which the pouring surfaces from the edges of the opening 21 extend They can be reached in, but outside this line, so that the goods do not flow out freely can. In addition to its edges, a strand of a chain 31 is stretched on the wing 32 are attached, which penetrated into the sloping on the table 50 goods. They are advantageously inclined against the direction of movement (arrows in Fig. 5), so that they drive the material outwards. But even without this inclination you would they promote a flowing movement of the material to the edges of the table 30 so that one of the speed of the chain 31 corresponding amount of the material over this edge is poured off. It falls in turn into a container that holds it on a conveyor 12 leads. Fig. 5 shows a top view of the table and the chain with the wings. In the middle the outline of the opening @@ is indicated; the outlines appear on the outside dees container 25 and the conveyor belt 12 guided out underneath ### Fig. 5 indicated sprockets 34 around which the chain 31 is guided and from which she is tense and driven.

Instead of the wing chain konu @@ also a long one wave step with impellers, a screw or the like. Instead of the long edge of the Table, which in the present example is used as a dropping edge, could also be a A large number of openings evenly distributed over the length of the table are used for this purpose.

Claims (15)

PATENT CLAIMS 1. Extraction device for a cooling shaft through the pourable goods which pass the above given up in the shaft cooling surfaces is pulled down, especially for cooling shafts with a large number at right angles to the sinking direction channels running through the material - coolant-flowed channels, characterized by that the trigger device extends over the full or almost full horizontal length or width of the shaft (1) extends. 2. Trigger device according to claim 1, characterized in that the shaft has a fixed bottom part (6) with a large number of openings (7) has, under which a further floor (8) is located at a small distance arranged openings (14) is located, which is horizontally movable between two positions and . - Also in intermediate positions - is adjustable, and that the openings of the fixed bottom part and that of the movable bottom part in the one Endsteflung align with each other and are covered in the other end position, the im last case located under the openings of the fixed bottom part, uninterrupted Parts (13) of the movable bottom part that of the edges of this Openings (7) protrude laterally beyond the outgoing bulk surfaces. 3. Trigger device according to claim 2, characterized in that the bottom part (6) extends over the entire length and width of the shaft and contains the openings in an even distribution. 4. trigger device according to claim 2 or 3, characterized in that that the movable bottom part is mounted on wheels (10) which are parallel to the horizontal longitudinal direction of the shaft running rails (11). 5. trigger device also one of claims 2-4, characterized in that that with the movable floor an adjoining on its underside, the Well connected at least in the lateral direction merging container (9), which opens out over a conveyor or storage device (12). 6. trigger device according to claim 1, characterized in that under an elongated outlet opening (21) of the shaft one to one for Longitudinal extension the opening parallel axis (23) tiltable and in different tilted positions adjustable surface (22) is located, which in a first position of the outlet opening outgoing pouring areas protruded laterally and in a different position at least one of the two bulk areas does not protrude. 7. trigger device according to claim 6, characterized in that the surface with a drive device that sets it in repeated tilting movements connected is. 8. trigger device according to claim 7, characterized in that the frequency of the tilting movements can be changed. 9. Extraction device according to Ansprucjl 7 or 8 dadtlrcll characterized, that the amplitude and / or the center position of the tilting movements is adjustable. 10. Extraction device according to one of claims 6 - 9, characterized in that that there are a plurality of outlet openings with associated tilting surfaces. 11. Trigger device according to claim 10, characterized in that the tilting surfaces direct the goods to different conveying organs depending on the tilting direction. 12. Trigger device according to claim 1, characterized in that A horizontal table is located under an elongated outlet opening of the Schaciit (30) is located, the side of the pouring surfaces emanating from the opening (21) towers above and has at least one of the dump areas close to the discharge edges, which are evenly distributed over the length, and that a conveyor device (31,32) is provided that the poured material evenly over the entire length of the Discharge edges promoted. 13. Trigger device according to claim 12, characterized in that the discharge edge from the longitudinal edge running at a short distance from the dump surface of the table is formed. 14. Trigger device according to claim 13, characterized in that the conveyor from a parallel to the longitudinal edge of the table and in the longitudinal direction or rotatingly moved carrier member (31) with attached thereto, in the pouring surface protruding projections (32) consists. 15. Trigger device according to claim 14, characterized in that the carrier element is a chain driven with adjustable speed. L e r s e i t e