Method for setting loop coil embedding depth in conveyor belt, and method for manufacturing conveyor belt

The invention claimed is: 1. A method for setting the embedding depth of loop coils in a conveyor belt, the conveyor belt comprising: a core layer formed by arranging a plurality of metal cords extending in a belt longitudinal direction in parallel with each other in a belt width direction; an upper cover rubber and a lower cover rubber arranged above and below the core layer; and a plurality of loop coils embedded in the lower cover rubber at intervals in the longitudinal direction of the belt, the method comprising the steps of: preparing a two-dimensional or three-dimensional FEM analysis model of the conveyor belt; and setting the embedding depth of the loop coils in the conveyor belt on the basis of at least one of a principal stress or a deformation amount occurring in the loop coils in the analysis model when a falling object having predetermined specifications is dropped from above the upper cover rubber in the analysis model to the upper cover rubber. 2. The method for setting the embedding depth of loop coils in a conveyor belt according to claim 1 , wherein the falling object is dropped under conditions that the analysis model is placed on a rigid body. 3. The method for setting the embedding depth of loop coils in a conveyor belt according to claim 1 , wherein the embedding depth of the loop coils are set by using a displacement amount of metal cords in the belt width direction in the analysis model corresponding to the principal stress or the deformation amount. 4. The method for setting the embedding depth of loops coils in a conveyor belt according to claim 1 , wherein a model in which protective layers are embedded in a lower core rubber at a predetermined depth between the core layer and loop coils is used as the analysis model. 5. A manufacturing method for a conveyor belt, comprising the steps of: molding the unvulcanized molded body of a conveyor belt in which loop coils are embedded at an embedding depth position set by the method for setting the embedding depth of loop coils according to claim 1 ; and manufacturing the conveyor belt by vulcanizing the molded body. 6. A manufacturing method for a conveyor belt, comprising the steps of: embedding loop coils at an embedding depth set by the method for setting the embedding depth of loop coils according to claim 4 ; molding the unvulcanized molded body of a conveyor belt in which the protective layers are embedded in the lower cover rubber at a predetermined depth between the core layer and loop coils, and manufacturing a conveyor belt by vulcanizing the molded body. 7. The method for setting the embedding depth of loop coils in a conveyor belt according to claim 2 , wherein the embedding depth of the loop coils are set by using a displacement amount of metal cords in the belt width direction in the analysis model corresponding to the principal stress or the deformation amount. 8. The method for setting the embedding depth of loops coils in a conveyor belt according to claim 7 , wherein a model in which protective layers are embedded in a lower core rubber at a predetermined depth between the core layer and loop coils is used as the analysis model. 9. A manufacturing method for a conveyor belt, comprising the steps of: molding the unvulcanized molded body of a conveyor belt in which loop coils are embedded at an embedding depth position set by the method for setting the embedding depth of loop coils according to claim 8 ; and manufacturing the conveyor belt by vulcanizing the molded body. 10. A manufacturing method for a conveyor belt, comprising the steps of: embedding loop coils at an embedding depth set by the method for setting the embedding depth of loop coils according to claim 8 ; molding the unvulcanized molded body of a conveyor belt in which the protective layers are embedded in the lower cover rubber at a predetermined depth between the core layer and loop coils, and manufacturing a conveyor belt by vulcanizing the molded body.