Abstract: A tablet mark printing method of printing a mark at a splitting position of a tablet having a splitting line on a first surface and not having a splitting line on a second surface, the method including performing splitting line position recognition on the first surface of the tablet and printing the mark at a position corresponding to the splitting position at least on the second surface.

Abstract: A non-transitory computer-readable storage medium storing a program that causes a processor to execute a process that includes receiving identification information of a user; identifying a region for storing personal information of the user corresponding to the identification information in a memory, and transmitting question information stored in a region accessible with a right of an administrator other than the user to a terminal of the user; and when receiving an answer to the question information, storing the answer in the identified region for storing the personal information of the user.

Abstract: A tablet printing device applies print processing to a tablet having an engraved mark display with a recessed groove part. The tablet printing device includes a conveying disk that conveys the tablet while sucking and supporting a side surface of the tablet and an inkjet head capable of applying print processing to the front and back surfaces of the tablet conveyed by the conveying disk. The inkjet head applies print processing to the recessed grooved part of the engraved mark display based on engraving position data obtained by a print surface inspection device. Print processing is performed along the engraved mark display, with the result that the engraved mark display is made clear, significantly improving the visibility thereof.

Abstract: A tablet has a first layer printed using visible ink and a second layer printed using invisible ink. The first layer includes characters, a trademark, or the like printed using the visible ink, which can be visually confirmed by an administrator in charge or a tablet user. The second layer includes a barcode or the like printed using the invisible ink, which cannot be visually confirmed by the administrator or the tablet user. The second layer is visualized by black light or the like so as to be made readable. The tablet is subjected to print processing by a tablet printing device provided with conveying disks A to C conveying the tablet while sucking and supporting a side surface of the tablet. The first layer 51 and the second layer are printed by inkjet heads, respectively.

Abstract: Electronic components can be reliably supplied from a storage container for electronic components, which is easy to manufacture and highly economical, to a mounting device. The storage container for electronic components includes a storage region, in which electronic components are stored, a discharge hole, a lead portion for leading the electronic components to the discharge hole, the end of the lead portion becoming the discharge hole, a discharge hole side lead portion, provided with a taper (guide angle) so that its width becomes narrower toward the discharge hole, and a storage region side lead portion, positioned between the storage region and the discharge hole side lead portion, and provided with a taper (guide angle) so that its width becomes narrower toward the discharge hole side lead portion. In addition, the taper (guide angle) of the storage region side lead portion may be larger than the taper (guide angle) of the discharge hole side lead portion.

Abstract: An electronic parts mounting method for taking out from a parts supply device having a plurality of electronic parts at least one of the electronic parts, and mounting the part at a predetermined position of a substrate to be manufactured, includes steps of storing quantity of parts, which is held by each parts supply device, in a storing section provided in each parts supply device, rewriting the quantity of parts according to number of parts taken out from the parts supply device by a calculating section provided in each parts supply device, reading out an initial value of the quantity of parts held by each parts supply device, by a control section provided in an electronic parts mounting machine, calculating one of the quantity of parts required for the substrate and period of time required for mounting the part on the substrate by a calculating section provided in the electronic parts mounting machine, and carrying out, in advance, a parts shortage advance notification in each parts supply device based on