DE2543711C2 - Annular cooler for hot bulk goods, especially for iron ore sinter - Google Patents

Description

The invention relates to an annular cooler Mr hot bulk material, especially for iron ore sinter, which is rotatable and connected to a drive unit and with a feed point for the goods to be cooled and one after circulating the cooler while blowing through or sucking through a gaseous cooling medium, in particular air, reached drop point for the chilled goods are provided.

Such coolers are known in various embodiments. One embodiment has, for example two vertical, concentrically arranged side walls that rest on a chassis. Between A large number of grate carriages lying one behind the other are mounted on these scite walls and rotatably mounted on them provided on which the goods to be cooled rests. The unloading of the chilled goods at the dropping point takes place here by tilting the grate carriage about a horizontal axis (DE-PS 11 87 995). It is also known an annular cooler which is trough-shaped and in which the discharge of the cooled Good things from the rotating cooler are made using fixed scraper devices. At this Cooler design, it is also possible to arrange several such annular troughs one above the other, which together are in connection and the goods to be cooled happen sinking downwards (DE-OS 20 05 928).

In the aforementioned and other embodiments of ring-shaped coolers, drive units are used previously used gear or friction drives. However, such drives have the disadvantage that they require high machining accuracy and are therefore very expensive. In addition, it is difficult at Such drives take account of the changes in the diameter of the cooler caused by thermal expansion to wear. That is especially true of those lately built or planned cooler with very large

ίο diameter. The diameter can be 40 m and amount more.

The invention is therefore based on the object of creating a drive for an annular cooler, which has a comparatively simple structure and which does not require any additional and costly measures Adaptation to changes in diameter of the cooler takes place

To solve this problem, the invention proposes that for driving the cooler a or several hydraulically or pneumatically operated, stationarily arranged lifting devices are provided which are mounted on abutments (cams, Bags or the like.) Act, wherein the lifting devices are pivotably mounted and by the action of springs are constantly in contact with the abutments or the ring supporting them.

The abutments can be arranged directly on the inside or outside of the cooler, they can but also close to the inner or outer circumference of the cooler on its upper or lower side. In many cases, it is advisable to arrange the abutments on the inside of the cooler, as the interior space is often not fully usable elsewhere, while outside the cooler by neighboring units often the space is very cramped. The stationary storage of the lifting devices must here of course, the position of the abutment on the cooler must be adapted. By the srliwen-ibare storage of the Lifting devices and the mentioned use of springs ensure that the piston end the lifting device is safely brought into engagement with the respective abutment. Furthermore can hereby compensate for changes in the diameter of the annular cooler without any difficulty will.

The hydraulic or pneumatic lifting devices used according to the invention are known to be robust Drive units that are available for a wide variety of services. There is also a high level of machining accuracy at the ends of the pistons of the lifting devices, which are expediently connected to the abutments are provided to the system coming role, not required. Neither is a particularly careful one Machining, as it is indispensable for gear drives, for example, on the abutments on the cooler necessary. When using a roller at the piston ends, it is advisable to use the contact surfaces of the abutments to be designed accordingly in the shape of a circular arc.

The lifting devices used according to the invention thus require considerably less effort than this is the case with the drives that have been used up to now.

A preferred embodiment of the invention provides that the lifting devices in two groups are combined, the groups being used one after the other. To do this a continuous To ensure movement of the cooler, it is necessary-

Hch, that the strokes are used one after the other Lifting devices are located in the starting or End phase overlap.

The performance of the lifting devices should ultimately be designed so that if one lifting device fails the other lifting devices working simultaneously with this are sufficient for full-load operation of the cooler.

The invention is illustrated in the drawings, for example

F i g. 1 is a plan view of a schematically illustrated annular cooler, and

F i g. 2 the interaction of the lifting devices with the cams arranged on the cooler.

In Fig. 1, 1 and 2 denote the concentrically arranged, vertical side walls which carry the grate trolleys 3. These grate wagons form a closed chain of wagons. The side walls and the grate carriage thus represent an annular space into which the goods to be cooled are entered at the feed point 4. During the rotation of the Köhler in the direction of arrow A on wheels and rails, not shown here, cooling air is blown or sucked through the material located in the cooler. The facilities required for this are also not shown here. Upon reaching the discharge point 5, the material is cooled down to the desired temperature and is discharged here by tipping the grate trolley. The design of the drop point is shown in FIG. 1 is not shown in detail, it can be designed, for example, as illustrated in DE-PS 11 87 995

According to the invention, lifting devices, in the present case eight hydraulic cylinders, are provided in the interior of the cooler for driving the ring-shaped cooler, ie for its rotational movement. These hydraulic cylinders are combined into two groups, namely hydraulic cylinders 6a, 6b, x> c and 6c / form one group, and hydraulic cylinders 7a, Tb, Tc and Td form the other group. The two groups are used one after the other, as will be explained in more detail below. The hydraulic cylinders are pivotably mounted on a ring-shaped stage 8 in the interior of the cooler, and their pistons act

ίο on cam 9 on the inner circumference of the cooler.

As shown in FIG. 2, the cams 9 are arranged on a ring 10, which in turn is not shown in detail Way is attached to the inner circumference of the cooler. Here are the two hydraulic cylinders 6a and 7a drawn, which, as already stated, are assigned to two different cylinder groups and thus operated one after the other. The pistons 11a and 12a are provided at their ends with rollers 13a and 14a, which in the operating position are correspondingly circular arcs trained contact surfaces d ^ r cams 9 cooperate. The hydraulic cylinders are at 15a and 16a, respectively pivotally mounted, and springs 17a ozw. 18a ensure that the rollers 13a and 14a are constantly on the cam ring 10 and securely grip the cam 9.

The mode of operation of the pistons 11a and 12a associated with the various cylinder groups is as shown in FIG. 2 can be seen, here chosen so that the piston 12a begins its stroke before the piston 11a Hub has completed. For example, with a total stroke of 1500 mm, the piston 12a can already have carried out a partial stroke of 50 mm when the piston 11a still completes a remaining stroke of 250 mm got to. This ensures constant and even movement of the cooler.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Annular cooler for hot bulk material, in particular for iron ore sinter, which is rotatable and connected to a drive unit and with a feed point for the material to be cooled and a drop point for the gas that is reached after circulating the cooler while blowing or sucking through a gaseous cooling medium, in particular air cooled goods is provided, characterized in that one or more hydraulically or pneumatically operated, stationary lifting devices (6a, 6b, 6c, 6d, Ta, Tb, 7c, Td) are provided for driving the cooler, which on in the area of inner or outer circumference of the cooler attached abutments (9) (cams, pockets or the like) act, whereby the lifting devices are pivotably mounted and by the action ₍ of springs (17a, .., 18a, ...) constantly on the abutments ( 9) or the ring (10) carrying them. 2. Annular cooler according to claim 1, characterized in that at the ends of the pistons (Ha, .., 12a, ...) of the lifting devices rollers (13a, .. ^ 14a,. come to the plant. 3. Annular cooler according to claim 1, characterized in that the lifting devices are combined in two groups (6- · 6b, 6c, 6d or 7a, Tb, Tc, Td) , the groups being used one after the other. 4. Annular cooler according to claim 3, characterized in that the strokes of the one after the other The lifting devices used overlap in the initial and final phases.