Method for optimizing component type allocation and apparatus for optimizing component type allocation

The invention claimed is: 1. A method for optimizing component type allocation in which multiple component types of components are optimally allocated to an automatic feeder device which has an automatic loading function of automatically loading a component storage tape if the component storage tape in which the components are respectively stored in multiple component storage sections is inserted, and a manual feeder device which does not have the automatic loading function, when the automatic feeder device, the manual feeder device, and a reel holding device which rotatably holds a component supply reel around which the component storage tape is wound are installed in multiple installation positions which are set to be arrayed on a common pallet equipped on a component mounting machine, the method comprising: a workability evaluating step of evaluating an amount of a splicing work for replenishing and connecting a new component storage tape for each component type of the components when there is no component stored in the component storage tape loaded in the manual feeder device; and an automatic side allocating step of allocating to the automatic feeder device a component type having a priority value larger than other component types evaluated in the workability evaluating step, the priority value based on the amount of the splicing work for each component type. 2. The method for optimizing component type allocation according to claim 1 , wherein, in the workability evaluating step, the amount of the splicing work is evaluated based on at least one item of an execution frequency of the splicing work in the manual feeder device, a difficulty degree of the splicing work depending on the difference in properties of the component storage tape, and a time required for the splicing work. 3. The method for optimizing component type allocation according to claim 1 , wherein, in the workability evaluating step, a number of mounting points for each component to be mounted per one board is divided by a number of storage points of each component stored in the component storage tapes, an execution frequency of the splicing work is calculated respectively, and then it is evaluated that the amount of the splicing work is greater, as the execution frequency increases. 4. An apparatus for optimizing component type allocation, which optimally allocates a plurality of component types of components to an automatic feeder device which has an automatic loading function of automatically loading a component storage tape if the component storage tape in which the components are respectively stored in a plurality of component storage sections is inserted, and a manual feeder device which does not have the automatic loading function, when the automatic feeder device, the manual feeder device, and a reel holding device which rotatably holds a component supply reel around which the component storage tape is wound are installed in a plurality of installation positions which are set to be arrayed on a common pallet equipped on a component mounting machine, the apparatus comprising: a workability evaluation section which evaluates an amount of a splicing work for replenishing and connecting a new component storage tape for each component type of the components when there is no component stored in the component storage tape loaded in the manual feeder device; and an automatic side allocation section which allocates to the automatic feeder device a component type having a priority value larger than other component types evaluated in the workability evaluation section, the priority value based on the amount of the splicing work for each component type.