A screen printer including a squeegee device to spread from above solder paste on a stencil; a clamp device to grip a board conveyed to a position below the stencil by a board conveyance member that is flat and provided with a board holding portion in a central opening portion, the clamp device gripping the board via the board conveyance member; a board supporting device to support the board from below and move the board in a vertical direction inside the clamp device; and a raising and lowering device to move the board supported inside the clamp device in the vertical direction and position the board at a printing position, and the clamp device is provided with a board printing guide member to be removably attached to an upper end of a pair of clamp members to sandwich the board conveyance member in a widthwise direction.

A device for fixing different-sized base area objects with a vacuum including on a table: first, second, and third vacuum chambers. The third chamber extending the first and second chambers to the entire x direction extension, and the second chamber having parallel, line-forming grooves in the x direction and connected to each other by a first connection channel in the y direction and being released/closed serially relative to the first chamber by a line-switching device. The third chamber includes parallel, column-forming grooves extending in the y direction and connected to each other via a second connection channel in the x direction and being released/closed serially relative to the first chamber by a column-switching device. The third chamber being released/closed serially in the y direction by the line-switching device, in a simultaneous, segmented manner according to the number and positions of the line-forming grooves in correspondence with the second chamber.

A device for fixing different-sized base area objects with a vacuum including on a table: first, second, and third vacuum chambers. The third chamber extending the first and second chambers to the entire x direction extension, and the second chamber having parallel, line-forming grooves in the x direction and connected to each other by a first connection channel in the y direction and being released/closed serially relative to the first chamber by a line-switching device. The third chamber includes parallel, column-forming grooves extending in the y direction and connected to each other via a second connection channel in the x direction and being released/closed serially relative to the first chamber by a column-switching device. The third chamber being released/closed serially in the y direction by the line-switching device, in a simultaneous, segmented manner according to the number and positions of the line-forming grooves in correspondence with the second chamber.

There is provided a screen printing apparatus including: a mask plate on which a plurality of pattern holes are formed; a carrier supporter which supports a carrier which has a plurality of first openings and in which a plurality of workpieces are disposed on the plurality of first openings; a backup unit which has a plurality of workpiece supporters; a raising and lowering unit which lifts up the plurality of workpieces from the carrier and returns the plurality of lifted-up workpieces to the carrier; an aligner which aligns the plurality of workpieces in accordance with arrangement of the plurality of pattern holes; an overlapper which relatively moves the backup unit and the mask plate; and a print head which prints a paste on the plurality of workpieces on the plurality of workpiece supporters through the plurality of pattern holes.

There is provided a screen printing apparatus including: a mask plate on which a plurality of pattern holes are formed; a carrier supporter which supports a carrier which has a plurality of first openings and in which a plurality of workpieces are disposed on the plurality of first openings; a backup unit which has a plurality of workpiece supporters; a raising and lowering unit which lifts up the plurality of workpieces from the carrier and returns the plurality of lifted-up workpieces to the carrier; an aligner which aligns the plurality of workpieces in accordance with arrangement of the plurality of pattern holes; an overlapper which relatively moves the backup unit and the mask plate; and a print head which prints a paste on the plurality of workpieces on the plurality of workpiece supporters through the plurality of pattern holes.

The application relates to a printing device for printing onto substrates, in particular solar cells, wafers or printed circuit boards, including a squeegee means and including at least one printing table, wherein the squeegee means is arranged above the printing table, and including at least one conveying means, by means of which a substrate can be transported away in each case to a printing nest below the squeegee direction and away out of the printing nest after the printing process has taken place. It is provided that the printing table has several conveying means, which are arranged side by side and aligned parallel to one another and which each have at least one printing nest, and that the squeegee means has at least one squeegee, which can be moved over each printing nest in order to print successively onto the substrates, which are arranged in the printing nests.

The application relates to a printing device for printing onto substrates, in particular solar cells, wafers or printed circuit boards, including a squeegee means and including at least one printing table, wherein the squeegee means is arranged above the printing table, and including at least one conveying means, by means of which a substrate can be transported away in each case to a printing nest below the squeegee direction and away out of the printing nest after the printing process has taken place. It is provided that the printing table has several conveying means, which are arranged side by side and aligned parallel to one another and which each have at least one printing nest, and that the squeegee means has at least one squeegee, which can be moved over each printing nest in order to print successively onto the substrates, which are arranged in the printing nests.

A printing apparatus for printing workpieces comprises a rotary table supporting first and second platens rotatable between a loading position located in-line between input and output lines. The transfer apparatus is operable to cyclically perform first and second movement operations, in which the rotary table rotates to move the first platen from a loading position to a printing position and vice versa. The platens may be rotatable relative to each other.

Vacuum printing a fabric involves forming a fabric having a top face and a bottom face and placing a barrier layer below the top face. A plurality of holes is established in the barrier layer, and dye is applied to at least a portion of the top face of the fabric. Vacuum applied to the bottom face pulls the dye through the fabric and the plurality of holes in the barrier layer.

The present invention relates to a curved surface screen printing apparatus performing printing on a surface to be printed of a base material having a curved surface, including: a screen plate formed with a pattern and arranged above the base material; a squeegee which is disposed above the screen plate and applies an ink to the surface to be printed of the base material through the screen plate; and a base material moving mechanism which moves the base material along a vertical plane and is capable of swinging the base material with respect to an axis orthogonal to the vertical plane.