Support blocks for printed circuit boards (PCB's) and printed circuit board assemblies (PCBA's), wherein the support blocks are produced from a 3D printing process. The support block including a bottom surface having a vacuum connection; a top surface having at least one vacuum hole; at least one recessed surface that is offset from the top surface; and at least one vacuum channel extending from the vacuum connection to the at least one vacuum hole.

A carrier assembly configured to facilitate manufacture of a printed circuit board assembly includes a bottom frame defining a generally rectangular configuration and having a length and a width. The bottom frame is adjustable to vary at least one of the length or the width thereof. The assembly further includes a core releasably positionable on the bottom frame and configured to support a circuit board thereon. A carrier assembly system includes the bottom frame and a plurality of cores.

An electronic component mounting machine including a board clamp device configured to clamp a circuit board conveyed by a conveyor by sandwiching side edge sections of the circuit board between a clamp member from below and a conveyor rail from above by raising the clamp member, the electronic component mounting machine being configured to mount electronic components on the circuit board clamped by the board clamp device; and a control device configured to control a clamping force that is a sandwiching force on the side edge sections of the circuit board sandwiched between the clamp member and the conveyor rail of the board clamp device. The control device is configured to acquire board information including at least a weight of the circuit board and to control the clamping force of the board clamp device based on the acquired board information.

The three-dimensional mounting device includes a supporting section capable of fixing a processing target, an application section for applying a viscous fluid to the processing target, a mounting section for arranging a component on the processing target, an imaging section for imaging the processing target, and a control section for controlling the processing section including the supporting section, the application section, the mounting section, and the imaging section. One or more of the supporting section, the application section, the mounting section, and the imaging section has multiple tilt axes and is capable of tilting the processing target and/or the processing section in multiple directions. The control section performs coordinate correction using the circuit pattern on the forming surface as a reference position, and arranges the component on the mounting section.

A board work system including: a conveying and holding device including a pair of rails configured to support a board, and a changing mechanism configured to change a distance between the pair of rails, the conveying and holding device being configured to convey the board supported by the rails and hold the board at a work position; a work device configured to perform work with respect to the board held by the conveying and holding device from an underside of the board; a moving device configured to move the work device; and a control device, the control device including an acquiring section configured to acquire a rail spacing distance that is the distance between the pair of rails, and an operation control section configured to control operation of the moving device based on the rail spacing distance acquired by the acquiring section.

A positioning device that has a support table, two pairs of sliding blocks slidably mounted in the support table, a positioning plate extending vertically at the top of each sliding block, a base on which the support table is supported, a cylinder in the base, a ball in the cylinder, a piston rod slidably mounted in the cylinder and pushing the ball to move upward in a vertical direction, so that the ball drives the two pairs of sliding blocks to move away from each other in the first horizontal direction and the second horizontal direction, respectively, until the positioning plates of the two pairs of sliding blocks abut against four inner walls of the opening of the circuit board, respectively, to allow the electronic device to be received in a positioning slot defined by the positioning plates, and a release mechanism that drives the piston rod to move downward in the vertical direction to allow the two pairs of sliding blocks to be moved toward each other in the first horizontal direction and the second horizontal direction, so that the positioning plates drive the electronic device in the positioning slot to move toward a center of the opening.

A board work machine includes a backup plate, a backup member disposed on the backup plate to support a board from below, a movement device configured to move the backup member, a movement control section configured to control an operation of the movement device based on a position program indicating a position of the backup member disposed on the backup plate, a display section configured to display the position of the backup member indicated by the position program in a superimposed manner on a board image indicating the board, and an editing section configured to edit the position program in response to a request for increasing or decreasing the number of the backup members and changing the position of the backup member from an operator.

A component mounting machine automatically arranges backup pins at positions designated in a production job. A control device configured to control an operation of each of the component mounting machines determines whether a backup pins exists at a position where the backup pin cannot be automatically arranged in the arrangement of the backup pins designated in the production job, and when the backup pin exist at a position where the backup pin cannot be automatically arranged, excludes the backup pins at the position from the arrangement of the backup pins designated in the production job not to be automatically arranged, and automatically arranges only the other backup pins at the positions designated in the production job.

Support blocks for printed circuit boards (PCB's) and printed circuit board assemblies (PCBA's), wherein the support blocks are produced from a 3D printing process. The support block including a bottom surface having a vacuum connection; a top surface having at least one vacuum hole; at least one recessed surface that is offset from the top surface; and at least one vacuum channel extending from the vacuum connection to the at least one vacuum hole.

Support blocks for printed circuit boards (PCB's) and printed circuit board assemblies (PCBA's), wherein the support blocks are produced from a 3D printing process. The support block including a bottom surface having a vacuum connection; a top surface having at least one vacuum hole; at least one recessed surface that is offset from the top surface; and at least one vacuum channel extending from the vacuum connection to the at least one vacuum hole.