A mounting system including a printing device that prints a viscous fluid on a processing target object using a screen mask, an exchange unit disposed in the printing device and configured to automatically exchange a printing related member for use in the printing device between the printing device and the exchange unit, one or more mounting devices including a mounting section configured to mount a component on the processing target object, and a moving work device configured to move around a circumference of the mounting device to automatically attach and detach a mounting related member for use in the mounting device between the mounting device and the moving work device. The printing device and the mounting device are disposed in such a manner that front surfaces thereof lie on the same side, and the exchange unit and the moving work device are disposed on the same side.

An alignment system for a workpiece printing machine comprises a stencil support and a workpiece support, and a planarity control mechanism having at least two actuators arranged to effect relative rotation of the stencil support and workpiece support about both the horizontal axes.

The present application discloses a screen printing device, comprising: a transport mechanism, which is used to carry and transport a plate to be printed disposed on the transport mechanism; a rotating frame located above the transport mechanism, which is used for winding a screen and driving the screen rotation; and a glue container located in the rotating frame and disposed to be independent of the rotating frame, wherein a lower portion of the glue container is provided with a glue outlet and a scraper, and the scraper is located beside the glue outlet. Since the screen printing device adopts a rolling printing mode, the tension generated by each position of the screen at the scraper is the same, thereby avoiding the poor printing uniformity due to the tension difference during the printing process.

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.

Screen printer 10 is for screen printing solder paste 13 loaded on an upper surface of stencil 12 onto board S using one of first and second squeegees 71 and 72. Screen printer 10 is provided with a stencil frame holding rail that holds stencil frame 12a of stencil 12, pair of board holding members 36 and 38 that hold board S, raising and lowering table 16 that raises and lowers board holding members 36 and 38, and pair of stencil supporting members 50 and 52 that support stencil 12 from below at a portion outside a printing region of stencil 12 used for screen printing. Stencil supporting members 50 and 52 are provided independently from raising and lowering table 16. Therefore, the load applied to raising and lowering table 16 is reduced. Also, there is increased design freedom with respect to members and the like loaded on raising and lowering table 16.

The present invention presents a solder printing apparatus comprising a clamping mechanism (100), and a position adjusting mechanism. The clamping mechanism (100) comprises a mounting base (130), a lead screw (142), one or more clamp base (110), and one or more adjustable height stopper (120) for locating and clamping. The position adjusting mechanism comprises an adjustment for X direction positioning (150), an adjustment for Y direction positioning (160), an adjustment for Z direction positioning (170), and an adjustment for rotation position about the Z axis (180), each having a turn knob with a micrometer scale, as well as, a position indicator (152, 162, 172).

A reconfigurable form pallet provides a manual or automated feeder to a garment processor, such as a printer or the like, and is adapted for a garment having appendages such as sleeves. The pallet comprises an interchangeable flat pallet surface; a appendages and sleeves handling mechanism configured to take hold of said appendages as the garment slides onto the pallet; a moving roller with adhesive or shaver to collect dust, fibers, and such from the garment; rounded surfaces for smooth movement of the garment; flaps on both sides for attaching the garment to the pallet without wrinkles or deviations from the center;

A reconfigurable form pallet provides a manual or automated feeder to a garment processor, such as a printer or the like, and is adapted for a garment having appendages such as sleeves. The pallet comprises an interchangeable flat pallet surface; a appendages and sleeves handling mechanism configured to take hold of said appendages as the garment slides onto the pallet; a moving roller with adhesive or shaver to collect dust, fibers, and such from the garment; rounded surfaces for smooth movement of the garment; flaps on both sides for attaching the garment to the pallet without wrinkles or deviations from the center;

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.