A system of additive manufacturing of an electronic component is provided. The system includes a deposition control computing device, the deposition control computing device including at least one processor in communication with at least one memory device. The at least one processor is programmed to generate control instructions of additive manufacturing of the electronic component, interpret the control instructions into controls of the system, and output the controls.

The invention discloses circulating feeding printer combining screen printing and digital ink jetting, comprising: a rack, the rack includes an upper rack layer and a lower rack layer, the two layers are respectively provided with a transmission platen capable of moving relative to the rack, each transmission platen is provided with a movable printing platen bearing a print medium capable of sliding relative to the transmission platen, a locking device locking the movable printing platen and the transmission platen is arranged between them, platen transfer devices capable of transferring the movable printing platen onto the transmission platen at the different layer are disposed on the rack, separately located at two sides of the transmission platens, the rack is further provided with a screen printer and an inkjet printer used for printing separately. The present invention prints high quality products, occupies small area, has high production efficiency and automation grade.

A paste supply apparatus includes: a pot holder which holds a paste pot including an inner lid movable in a container; an ejecting member; an annular protruding portion protruding downward from a lower surface of the ejecting member; a suction power generating mechanism which generates suction power in an internal space surrounded by the annular protruding portion; and an ejecting member lifting unit which moves up and down the ejecting member, The ejecting member lifting unit causes the ejecting member to press down the inner lid of the paste pot held by the pot holder to eject the paste from the through hole, and thereafter lifts the ejecting member which holds the inner lid by the suction power generated within the internal space of the annular protruding portion by the suction power generating mechanism.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and a reliability of the printing parameter in association with each other, the printing parameter which is associated with the printing condition corresponding to the printing condition acquired by the acquisition section and of which the reliability is a predetermined level or more.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and a reliability of the printing parameter in association with each other, the printing parameter which is associated with the printing condition corresponding to the printing condition acquired by the acquisition section and of which the reliability is a predetermined level or more.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs a printing parameter which is associated with a printing condition corresponding to a printing condition acquired by the acquisition section and of which a reliability is a predetermined level or more, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and the reliability of the printing parameter including inspection information on a print state of the solder inspected by a printing inspector in association with each other.

An object is to provide a screen printing machine capable of one-way printing on multiple boards. Solder collecting device includes collecting plate moving device, collecting plate, and scraper. Second slider of collecting plate moving device is movable in a front-rear direction along a second guide rail, and is also movable in an up-down direction. Collecting plate is placed on second slider. After squeegee passes by the tail end of printing region of mask, collecting plate is disposed so as to be positioned rearward of squeegee and collects the cream solder moved by the rearward movement of squeegee. Scraper is attached to collecting plate to be movable in a left-right direction and collects the cream solder remaining on mask.

Printed textiles and related manufacturing methods are provided. Textile materials can include laced mesh fabrics made of rigid components. The laced mesh structures are designed for space applications, including but not limited to adaptive and foldable reflectors, capturing systems, debris and micrometeorite shielding, shading systems, sample capturing, and various other applications. The laced mesh structures are used in the generation of tailored, unique radio-frequency antennas and receivers that allow for active tuning/receiving capabilities. The tailored structure can also include multi-material systems mixing dielectric and conductive layers for enhanced, tunable transmission. Laced mesh structures can also be used for enhanced thermal control of components, with the ability to tailor thermal conductivity and emissivity, to create thermal engineered components via the generation of localized or global thermal response (e.g. zone thermal control).

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs a printing parameter which is associated with a printing condition corresponding to a printing condition acquired by the acquisition section and of which a reliability is a predetermined level or more, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and the reliability of the printing parameter including inspection information on a print state of the solder inspected by a printing inspector in association with each other.

Provided is a screen printing device. A screen printing device according to an embodiment of the present invention includes: a screen disposed adjacent to an upper portion of a substrate on which a printing process is performed, and having a pattern to be printed on the substrate; a printing unit disposed on an upper portion of the screen and configured to discharge ink supplied from the outside to the screen and to print the pattern on the substrate; a driver connected to at least one of the screen and the printing unit and configured to drive at least one of the screen and the printing unit; and a controller connected to the printing unit and the driver and configured to control operations of the printing unit and the driver, wherein, when at least one of the screen and the printing device moves in a state in which the printing unit contacts the screen, the controller controls the printing device to perform printing on the substrate by using discharge pressure of the ink.