LT5564B - Bulk material cooler for cooling hot materials to be cooled - Google Patents

Abstract

The invention aims at providing a bulk material cooler particularly for hot cement clinker, wherein the conveyance performance and the efficiency ofd the cooler are enhanced and problems due to wear are reduced. According to the invention, the cooling grates of several adjacent, elongated bottom elements extending in longitudinal direction of the cooler are put together, said bottom elements being movably controlled independently of one another between a work clearance stroke position in the direction of conveyance of the material to be cooled and a return stroke position in such a way that the material to be cooled is gradually conveyed through the cooler according to the walking floor transport system, wherein the bottom elements are configured as hollow bodies and enable the cold air to go through yet prevent grate sifting of the material to be cooled.

Description

BACKGROUND OF THE INVENTION The present invention relates to a bulk material cooler having a cooling rack with a cement clinker placed thereon, wherein the refrigerated product sliding in the cooling gas is transported from the refrigerated product feed point to the frozen product discharge.

The shelf cooler is used in the non-ferrous minerals industry where the product so far burned in the furnace, such as cement clinker or other minerals, is immediately cooled in a cooling shelf. Due to the transport of the hot chilled product through the refrigeration line, it is widely spread on a cooler with a mechanical chain grate, in particular a sliding mechanical grate cooler, resulting in a rack system consisting of a plurality of interchangeable fixed and movable backing grates respectively, a plurality of lattice plates are provided with openings for cooling air and with substantially bottom-up cooling air. At the same time, there are default rows of lattice slabs moving in the direction of movement of the material, with rows of sliding plates sliding from one end to the other, which are mounted on one or more sliding drive frames along their respective sliding support lattice plates. Through the generous swinging motion of all rows of sliding grate plates, the cooled hot product is transported by sliding it while cooling it. It is also known to protect the rack plates from thermal-mechanical overload plates having a groove or pocket on the upper side for receiving and storing the frozen product, which then forms an anti-wear protection on the refrigerated product supplied thereto (EP-B0634 619).

To avoid abrasion problems caused by cement clinker removal and product jamming in the overlapping area of the rack plates in the overlapping area of the movable and non-movable rack plate rows, as an alternative to the basic EP with 1 or 2 movable B also DE-A-100 18 142 is a known rack-type cooler in which the cooling air blown refrigerated product is stationary but standing, and a plurality of adjacent sliding beam-shaped sliding beams are arranged above the stationary grid plane across the direction of transport of the refrigerated product. elements that move between the forward position in the transport direction of the frozen product and the reverse position so that through the movement of these elements from one end to the other, the material of the product gradually moves away from the cooled layer of the product. and from the beginning of cooling to the end of cooling and thus becomes cooled. Heavy-duty movable elements moving in the bulk product layer shuffle the bulk product layer, which adversely affects the thermal performance of this type of cooler. Bulk material - Feeding is solved at the same time by the difference between the amount of cement clinker moving in each direction of loading of material and the amount of clinker moving in reverse motion in the opposite direction of material movement. In addition, in this known type of rack cooler, the transverse beam-shaped displacement members are mounted on the upper sides of a force plate positioned vertically in the longitudinal direction of the cooler, which penetrates through the respective longitudinal grooves of the cooling rack and is driven (rotated) from the bottom of the cooling rack. Understandably, it is too difficult for a cooling rack loaded with a refrigerated product to clog the force plate at the passage in front of the material through the holes, thereby making it difficult to keep the material from falling within the permissible limits.

Finally, DE-A-196 51 741 discloses a cooling tunnel for cooling and / or freezing a refrigerated product using cold air using the so-called "walking floor" transport principle, whereby a plurality of adjacent cooling tunnel base members move together in the transport direction. forward, but not together, but moving backward apart from one another. Through the base elements, a high bulk-to-load ratio can be created, which causes the entire cross-section of the cooling tunnel to be filled so that the cooling gas passes countercurrently through the moving bulk material. The base elements themselves are not cooled by the cooling gas, so the known cooling tunnel is not suitable for cooling the hot cement clinker falling from the exhaust end of the rotating tubular furnace. The direct contact of the hot cement clinker with the top surface of the base members leads to high thermal-mechanical wear due to the applied load and to the inadequate service life of the cooling tunnel when it is necessary to cool the hot cement clinker.

It is an object of the present invention to provide a bulk material cooler particularly suited to hot cement clinker, furthermore, the efficiency, service life and useful life of such a cooler need to be increased and wear problems solved.

This object is achieved by a bulk material cooler according to the present invention, the features of which are set forth in claim 1 of the invention. Advantageous improvement of the invention is reflected in the dependent claims.

The bulk material cooler according to the present invention comprises a hot rack cooling rack consisting of a plurality of elongate base members extending side by side along the cooler, which are at least partially independent of a forward and a reverse position in the transport direction of the refrigerated product. controllably sliding so that the refrigerated product is transported periodically on a moving floor basis through the cooler. At the same time, the cooling rack thus formed is permeable to cooling air, which passes from the bottom to the top of the cooling rack in almost the entire cross-section of the flow as the bulk material placed on it, serving as the base elements at the same time. . The displacement elements moving above the cooling rack in the bulk container, which are subject to extreme wear and tear and do not exist in the bulk container of the bag. It is considered as an example that the base members move forward in a forward motion but not in reverse motion, but in at least two successive steps in at least two successive steps, whereby only one part of the base members, for example, , accordingly, only every second base member is intended to return through the freezing width. The base elements are reversed after the bulk material capacity is reversed so that the bulk material capacity remains at rest and is not affected by reverse movement.

The movable base members of the bulk material cooler of the present invention are constructed in the form of a longitudinal hollow body profile and have a cross-sectional view of a refrigerated product having a bottom-up permeability to the cooling gas and a distant enclosed shield against the refrigerated product. half. In addition, the underside of all base members has a plurality of cooling gas inlet openings spaced across the base and, at the same time, a cooling rack for ventilation. The traction of the base members for their movement between the forward and reverse positions occurs at the bottom of the cooling rack.

In order for the top of the base member to be permeable to the cooling gas, it is possible to provide a chilled product bearing top of the base member with a somewhat perforated structure. According to a particular embodiment of the invention, the individual faces of the individual and / or groups along the movable base members may consist of a mirror-shaped, but displaceable, gable-canopy V-profile with the V-legs spaced apart to form a maze of frozen product, as with cooling air, this means that the maze thus formed is permeable to the cooling air, but at the same time prevents the frozen product from falling through the rack.

In order to reduce wear between the upper half of the upper half of the cold store, the base members may have bridges arranged on these upper sides transverse to the direction of movement of the cold store to prevent the lower layer and the base member from moving relative, that, when using a bulk material cooler in accordance with the present invention, relative movement occurs only between the stored lower bulk material layer and the resulting bulk material capacity material.

According to another embodiment of the invention, correspondingly overlapping longitudinal bridges are formed on opposite sides of adjacent controllably movable base members with a correspondingly horizontal to zero sealing gap, which prevents the passage of cooling air between adjacent base members. This horizontal seal operates without blown air and can be self-adjusting with the help of a spring force that keeps the horizontal seal gap to zero.

An advantage is that the bulk material cooler rack for cooling over the length and width of the cooler is made up of a plurality of base-module modules, and the base-module modules stacked one after the other in the transport direction of the refrigerated product. -module coupling elements respectively form a row, especially in motion.

According to the rack for cooling according to the invention, the lifting mechanism for transporting the refrigerated product is completely independent of the ventilation of the rack for cooling. The movement of the individual or groups of base elements can be brought so close by pulling that the bulk material, such as hot cement clinker, is adaptable for distribution.

The invention and other examples and advantages thereof are further illustrated by reference to the schematic embodiments shown in the figures.

Here's a picture:

FIG. 1: a perspective view of a bulk material cooler base element module according to the present invention, further comprising a plurality of such one-by-one and side-by-side cooling rack modules

FIG. 2: Cross-section through the module of FIG. 1 perpendicular to the direction of travel, and

FIG. 3: An enlarged view of FIG. Detail 2 Image III.

FIG. 1 illustrates a cooling rack for a bulk material cooler described in the present invention, consisting of a plurality of, for example, three modules of longitudinally spaced, almost trough-shaped base members 1, 2, 3 extending independently of each other for a single module. forward position 4 in the direction of transport of the refrigerated product and reverse positions 5 such that the refrigerated product 6 placed on the base elements and highlighted in Figure 2 is lifted slowly through the cooler by the principle of raising the moving floor. As shown in FIG. 1 at the base member 3, the individual base members 1, 2, 3 of the base member module are driven under a cooling rack through a retractable frame which rests on the travel rollers and engages their force cylinder.

The base members 1, 2, 3 of all modules are hollow, that is to say, in cross-section they have a visible cooling product 6 containing a permeable upper side from the bottom to the top and a closed sealing therebetween to prevent the refrigerated material from falling through the holes 8 As a result, the undersides 8 of all base members have a plurality of cooling air inlet holes 9 arranged in length to enter the cooling air 7 for venting the base members and for cooling the bulk material thereon. The upper sides of the base members may be provided with certain permeable structures of permeable cooling air 7. As shown in the embodiment of FIG. 2, along the top sides of the movable base members 1, 2, 3 respectively, may consist of spaced mirrors in front of each other but displaced relative to one another in the shape of a gable roof 10, 11 with V-legs spaced apart where the latter forms a maze for the refrigerated product 6 as for the cooling air 7. It is thus provided that the bulk material cooler according to the present invention is protected from falling through the rack holes.

As an advantage, the top half of the base member 1 is arranged transversely in the direction of transport of the refrigerated product and is provided with lying bridges 12, 13, 14 for securing the lower bulk material and preventing relative movement of this bottom layer and corresponding base member.

FIG. Figure 3 shows that the gap between adjacent controllably movable base members on the longitudinal sides of the opposing adjacent base members, respectively, overlaps longitudinal bridges, namely the upper longitudinal bridge 15 and the lower longitudinal bridge 16, respectively, creating a horizontal sealing gap. This horizontal seal operates without air blowing and can be self-adjusting due to spring force.

Claims (6)

Definition of the Invention 1. A bulk material cooler with a cooling rack containing a cooled product, such as a hot cement clinker, that conveys a refrigerated product through a jet of cooling gas from the loading end of the refrigerated product to the discharge end of the refrigerated product, comprising: a) The cooling rack comprises a plurality of longitudinal base members (1-3) disposed adjacent to each other in a longitudinal direction of the cooler, which are at least partially independent of one another and are controllably movable between the forward moving position (4) and positioning (5) such that the refrigerated product (6) is gradually transported through the cooler according to the principle of walking floor movement; b) the base members (1-3), in cross-sectional view, have a refrigerated product containing and allowing the cooling gas (7) to pass from the bottom to the top and a closed bottom side (8) which prevents the refrigerated product from falling through rack grille; c) The underside (8) of the base members has a plurality of cooling air inlet openings (9) disposed along the length for venting the base members and thus for ventilating the rack. 2. A bulk material cooler according to claim 1, characterized in that the individual sides and / or groups along the top sides of the movable base members (1-3) are respectively formed by mirror-spaced, but displaceable, gable roof-shaped V-profiles (1). 10, 11), the V-legs of which interpenetrate each other the last of which forms a labyrinth for the refrigerated product (6) and the cooling air (7). 3. A bulk cooler according to claim 1 or 2, characterized in that bridges (12-14) are arranged on the upper side of the base members (1-3) in transverse direction of transport of the refrigerated product to hold and prevent the lower layer (6). for the relative movement of the base member. 4. Bulk material cooler according to claim 1, characterized in that correspondingly overlapping longitudinal bridges (15, 16) with correspondingly formed horizontal to zero sealing gaps are arranged on opposite longitudinal sides of adjacent controllably movable base members. 5. A bulk cooler according to claim 1, characterized in that the rack for cooling visible through the width and length of the bulk cooler is made up of a plurality of substrate modules, and the substrate modules arranged one after the other in the transport direction of the refrigerated product. to the queue. 6. Bulk material cooler according to claim 1 or 5, characterized in that the propulsion of the individual base unit modules of the base members to move between the forward position (4) and the backward position (5) occurs at the bottom of the cooling rack; that the elements connecting the base unit modules are arranged one after the other in a row which is particularly suitable for stretching.