Gas turbine combustion chamber tile having effusion cooling holes including straight and offset sections

What is claimed is: 1. A combustion chamber tile of a gas turbine comprising: a basic element including a first surface on a first side thereof and a second surface on a second side thereof opposite the first side and also including an effusion cooling hole extending through the basic element from the first surface to the second surface, a ceramic surface coating applied to the first surface, the effusion cooling hole including an inlet opening adjacent the first side of the basic element and extending substantially at a right angle to the first surface over part of a length of the effusion cooling hole, the effusion cooling hole inside the basic element including a straight section adjacent the first side and then an offset section extending from the straight section toward the second side, the effusion cooling hole including a shoulder opposite the inlet opening in an area of a beginning of the offset section, the shoulder being inclined away from the first surface in a direction away from the effusion cooling hole to form a recessed portion in the effusion cooling hole recessed away from the first surface for accumulating a portion of the ceramic surface coating. 2. The combustion chamber tile in accordance with claim 1 , wherein the ceramic surface coating is a spray coating. 3. The combustion chamber tile in accordance with claim 1 , wherein the basic element is an additive laser deposition produced element. 4. A method for manufacturing a combustion chamber tile of a gas turbine comprising: providing: a basic element including a first surface on a first side thereof and a second surface on a second side thereof opposite the first side and also including an effusion cooling hole extending through the basic element from the first surface to the second surface, the effusion cooling hole including an inlet opening adjacent the first side of the basic element and extending substantially at a right angle to the first surface over part of a length of the effusion cooling hole, the effusion cooling hole inside the basic element including a straight section adjacent the first side and then an offset section extending from the straight section toward the second side, the effusion cooling hole including a shoulder opposite the inlet opening in an area of a beginning of the offset section, the shoulder being inclined away from the first surface in a direction away from the effusion cooling hole to form a recessed portion in the effusion cooling hole recessed away from the first surface, applying a ceramic surface coating applied to the first surface, accumulating a portion of the ceramic surface coating entering the inlet opening in the recessed portion. 5. The method in accordance with claim 4 , wand further comprising applying the ceramic coating by spraying. 6. The method in accordance with claim 4 , and further comprising providing the basic element by an additive laser deposition method.