A screen printing system includes a screen printing machine. The screen printing machines includes a screen printing unit with a screen. A platen arm assembly includes a platen configured to move in a telescoping direction from at least a first position where the platen is positioned under the screen to a second position that is different from the first position.

Provided is an automatic mask replacement device for a screen printer, wherein: a mask that is already installed in a screen printer may be automatically replaced with a new mask, thereby enabling quick switching to the production of a new printed circuit board without unnecessary wasting of time and manpower and without the inconvenience of replacement work, and through the quick switching, providing the advantages of increasing efficiency by increasing productivity and shortening working time; the occurrence of product defects due to replacement work may be minimized in accordance with the rate of change in process conditions being minimized through quick replacement of the mask through an automatic process, rather than an impractical replacement of the mask by manpower; by minimizing a movement distance according to mask replacement, the time required for mask replacement is minimized, thereby enabling quick replacement.

Provided is an automatic mask replacement device for a screen printer, wherein: a mask that is already installed in a screen printer may be automatically replaced with a new mask, thereby enabling quick switching to the production of a new printed circuit board without unnecessary wasting of time and manpower and without the inconvenience of replacement work, and through the quick switching, providing the advantages of increasing efficiency by increasing productivity and shortening working time; the occurrence of product defects due to replacement work may be minimized in accordance with the rate of change in process conditions being minimized through quick replacement of the mask through an automatic process, rather than an impractical replacement of the mask by manpower; by minimizing a movement distance according to mask replacement, the time required for mask replacement is minimized, thereby enabling quick replacement.

A mask delivery device of the present invention is a device that transfers a mask used when printing solder on a substrate to an accommodating unit that accommodates the mask. The mask delivery device includes a mobile mechanism including a guide extending in a fixed direction along one surface of the accommodating unit having an opening for loading and unloading the mask and a mobile body moving along the guide; and a multijoint robot supported by the mobile body to transfer the mask between the accommodating unit and a placement location away from the accommodating unit.

A mask delivery device of the present invention is a device that transfers a mask used when printing solder on a substrate to an accommodating unit that accommodates the mask. The mask delivery device includes a mobile mechanism including a guide extending in a fixed direction along one surface of the accommodating unit having an opening for loading and unloading the mask and a mobile body moving along the guide; and a multijoint robot supported by the mobile body to transfer the mask between the accommodating unit and a placement location away from the accommodating unit.

A stencil printer includes a frame, a stencil, a support assembly, and a print head, and a print head assembly supported by the print head gantry in such a manner that the print head assembly is configured to traverse the stencil during print strokes. The support assembly supports the electronic substrate in a print position beneath the stencil. The print head assembly includes a print head a squeegee blade assembly configured to roll solder paste along the stencil. The stencil printer further includes a cover coupled to the frame to enclose operating components of the stencil printer, including the stencil, the support assembly, the print head gantry and the print head assembly. The cover includes an elongate opening formed therein and a movable door configured to selectively close the elongate opening. The elongate opening is sized to enable the stencil and/or a tooling tray to pass through.

A multi-optical-color optically-variable printing device having: a conveying unit; a screen printing unit, configured to printing an ink or a varnish containing a magnetic substance on a printing stock; and a plurality of optical-color optically-variable pattern forming units. Each optical-color optically-variable pattern forming unit comprises: magnetizing rollers, magnetic orientation components being arranged on each magnetizing roller and configured to performing magnetic orientation on the printing stock; and pre-drying and curing devices, configured to pre-drying and curing the printing stock, each pre-drying and curing device comprising optical mask curing devices, the optical mask curing device being fixedly arranged and configured to projecting dynamically refreshable variable optical field image-text, and the variable optical field image-text and the printing stock synchronously moving a predetermined distance.

A multi-optical-color optically-variable printing device having: a conveying unit; a screen printing unit, configured to printing an ink or a varnish containing a magnetic substance on a printing stock; and a plurality of optical-color optically-variable pattern forming units. Each optical-color optically-variable pattern forming unit comprises: magnetizing rollers, magnetic orientation components being arranged on each magnetizing roller and configured to performing magnetic orientation on the printing stock; and pre-drying and curing devices, configured to pre-drying and curing the printing stock, each pre-drying and curing device comprising optical mask curing devices, the optical mask curing device being fixedly arranged and configured to projecting dynamically refreshable variable optical field image-text, and the variable optical field image-text and the printing stock synchronously moving a predetermined distance.

An exchanging unit for use in a printing device including a printing section to execute a printing process of printing a viscous fluid on a processing target object using a screen mask, and includes a receiving section configured to receive an accommodation rack having multiple shelf sections each configured to accommodate a frame that is capable of supporting an exchangeable member for use in the printing device, a lifting and lowering section configure to lift and lower the accommodation rack between an exchange position where to exchange the exchangeable member and a liftable position situated further downwards than the exchange position, and a moving section configured to move the accommodation rack between the liftable position where the accommodation rack can be lifted up by the lifting and lowering section and an accommodation position where the accommodation rack enters an interior of a housing of the printing device.

An exchanging unit for use in a printing device including a printing section to execute a printing process of printing a viscous fluid on a processing target object using a screen mask, and includes a receiving section configured to receive an accommodation rack having multiple shelf sections each configured to accommodate a frame that is capable of supporting an exchangeable member for use in the printing device, a lifting and lowering section configure to lift and lower the accommodation rack between an exchange position where to exchange the exchangeable member and a liftable position situated further downwards than the exchange position, and a moving section configured to move the accommodation rack between the liftable position where the accommodation rack can be lifted up by the lifting and lowering section and an accommodation position where the accommodation rack enters an interior of a housing of the printing device.