Cooler for cooling hot bulk material and method for preventing grate riddlings in a cooler

What is claimed is: 1. A cooler for cooling bulk material, the cooler comprising: a stationary aeration grate for receiving the bulk material, wherein the stationary aeration grate is passable by a flow of cooling gas; a conveyor unit having conveyor planks that are disposed above the stationary aeration grate and that for transporting the bulk material are movable in a reciprocating manner in a conveying direction and counter to the conveying direction; a drive element for driving the conveyor planks, the drive element extending through the stationary aeration grate; and a seal assembly for preventing grate riddlings, the seal assembly being stationary and being attached to the stationary aeration grate by way of a releasable connection means and laying against the drive element, wherein spacing between the seal assembly and the drive element is adjustable by way of the releasable connection means. 2. The cooler of claim 1 wherein the seal assembly includes a wall element, wherein spacing between the wall element and the drive element is adjustable. 3. The cooler of claim 2 wherein the wall element is connected to the stationary aeration grate by way of the releasable connection means. 4. The cooler of claim 3 wherein the stationary aeration grate includes an elongate hole through which the releasable connection means is disposed. 5. The cooler of claim 2 wherein the wall element is L-shaped and has an angle of 60° to 120°. 6. The cooler of claim 2 wherein the seal assembly includes a wear-protection element that is attached to the wall element. 7. The cooler of claim 6 wherein the wear-protection element includes a plate. 8. The cooler of claim 6 wherein the wear-protection element comprises a hard metal. 9. The cooler of claim 6 wherein the wear-protection element comprises at least one of tungsten carbide or ceramics. 10. The cooler of claim 1 wherein each of the conveyor planks includes drive elements. 11. The cooler of claim 10 wherein each of the drive elements extends through a respective clearance in the stationary aeration grate. 12. The cooler of claim 1 wherein the drive element extends through a clearance in the stationary aeration grate. 13. The cooler of claim 1 wherein the drive element is plate-shaped. 14. The cooler of claim 13 wherein the drive element extends through a clearance in the stationary aeration grate, wherein the clearance is slot-shaped and has a length that corresponds to a length of a stroke of the conveyor unit. 15. A method for preventing grate riddlings in the cooler of claim 1 , wherein the method comprises decreasing the spacing between the seal assembly and the drive element to reduce or eliminate wear.