The invention relates to a template or stencil with perforations, which improves solder-paste stencilling on an object and comprises: a first area treated with precision powder on a bottom laminar face of the template, said treated face covering at least an area where perforations are distributed; a second area treated with precision powder on a top laminar surface of the template, said second treated area encircling the perforations; and a third area treated twice with precision powder on the bottom laminar surface, said third area encircling the perforations of the template. The invention also relates to a method for producing a template that improves solder-paste stencilling on an object, and to a method for the improved application of solder-paste on an object, such as a printed circuit board.

A method of through-plating a circuit board having conductors formed on two sides. At least two holes are filled under compression pressure with a sintering paste. Subsequently, the sintering paste is dried and fired to form a cohesive bond with the ceramic substrate and fill the holes. Simultaneous filling of multiple holes having different hole diameters is accomplished using a printing screen with screen holes of different diameters. A single print parameter set is used. The printing screen here has at least one screen hole for filling a hole larger than the reference hole. The screen hole has an area-reducing and area-dividing geometry that divides the screen hole into at least two hole sections.

A workpiece holding body holding a workpiece having a three-dimensional shape is swung around a lateral swing axis to position the workpiece so that one mounting surface of the workpiece faces a predetermined worked direction and a viscous substance is printed on the one mounting surface of the workpiece which is positioned. The workpiece holding body is swung around the swing axis to position the workpiece so that another mounting surface of the workpiece in which the viscous substance is printed on one mounting surface faces the worked direction and to print the viscous substance on the other mounting surface of the workpiece which is positioned.

A screen-printing machine includes a mask holding device; a board holding device configured to grip a board; a positioning device to relatively position the board and the mask; and a control device. The board holding device includes a lifting and lowering table positioned in an up-down direction by a lifting and lowering mechanism, and a backup block including a mounting surface on which the board is placed, an installation surface disposed parallel to the mounting surface on an opposite side thereof, multiple suction holes to penetrate in a thickness direction between the mounting surface and the installation surface, and a chamber recessed section formed on an installation surface side so as to surround positions of the multiple suction holes, and in which an air chamber made by the chamber recessed section is configured when the backup block overlaps an upper face of the lifting and lowering table.

A method for manufacturing a light-emitting module includes a step of providing a bonded board including a board including, on a first surface, a circuit pattern and wiring pads that are continuous with the circuit pattern and each have bottomed holes and light-emitting segments connected on a second surface of the board with an adhesive sheet interposed therebetween and including an array of light-emitting devices; a step of supplying electrically conductive paste inside the bottomed holes and on portions of the surface of the wiring pad around the bottomed holes through openings of a mask; and a step of performing thermal compression to harden the electrically conductive paste such that the thickness of the electrically conductive paste on the portions of the surface of the wiring pad is smaller than the electrically conductive paste at the timing of being disposed through the openings of the mask.

A screen printing device includes a printing work part; a mask storage part including a plurality of accommodating sections each capable of accommodating a screen mask; a transfer device that transfers the screen mask between each of the accommodating sections and the printing work part; a pair of first guide members that is disposed in the printing work part, and guides the screen mask during the transfer, the pair of first guide members having a variable interval; a pair of second guide members that is disposed in the accommodating sections, and guides the screen mask during the transfer; and a guide width determination device that determines whether or not the interval between the pair of first guide members coincides with the interval between the pair of second guide members.

In an Injection Molded Soldering system, a single, one-layer decal has one or more through hole patterns where each through hole pattern has a plurality of through holes through the decal. A drum with a drum circumference turns while the decal is forced to be adjacent to the drum circumference. The decal passes by a tangent point on the drum circumference where one or more solder-filled through hole patterns align with recessed openings on a substrate at the tangent point of the drum circumference. Applied heat causes the solder structures to melt and flow into the recessed openings.

A wiring board includes a rod-shaped shaft member including at one end a flange that has a larger diameter than any other portion, a heat-releasing plate including a first through-hole in which the shaft member is inserted, and a board including a second through-hole in which the shaft member is inserted. In the wiring board, a gap is formed at least in part between the heat-releasing plate and the board.

A printing device includes a storage that stores allowable time for which use of solder supplied to a screen mask can be allowed, a timer that measures time for which the solder is supplied to the screen mask, a determination unit that determines whether or not the solder supplied to the screen mask has exceeded the allowable time based on time measured by the timer, and a notifier that notifies a worker in a case where the determination unit determines that the solder supplied to the screen mask has exceeded the allowable time. The timer measures time by weighting a measurement interval of time for which the solder is moved on the screen mask by a squeegee so as to become greater than a measurement interval of time for which the solder does not move on the screen mask.

A feedback information generation method for a solder inspection apparatus includes: receiving an input of information on the number of buffers which are disposed between the solder inspection apparatus and a screen printer for printing solder on printed circuit boards and are configured to support the printed circuit boards to be introduced into the solder inspection apparatus so as to put the printed circuit boards on standby; generating feedback information by using the input information and an inspection result of the printed circuit boards by the solder inspection apparatus; and transmitting the feedback information to the screen printer. Feedback information may be generated in consideration of the number of buffers, thereby preventing the feedback information from being excessively generated as well as ensuring the accuracy of the feedback information.