Abstract: A turret styled container decorator machine is disclosed having a rotatable turret and a number of circumferentially spaced container holding assemblies for holding a variety of pieces of media, such as a drink container, the surface of which is to be printed upon with an image. A plurality of workstations are positioned around the perimeter of the turret through which each media holder passes as the turret rotates. Each workstation includes an ink printing assembly and a curing assembly so that ink may be applied and cured as each piece of media is indexed into each workstation location. Each printing workstation may be removed and replaced with a different arrangement or configuration of ink heads to suit different types of media sizes and shapes, and the turret holds a plurality of media holding means assigned to a pie-shaped section of the turret adjustable to accommodate various types of media geometries.

Abstract: A method of printing radiopaque indicia on a medical device. The method includes applying radiopaque marking fluid to a surface of a plate comprising one or more etchings having a depth of at least 0.0001 inches, exposing the radiopaque marking fluid on the surface of the plate to air to allow the radiopaque marking fluid to achieve a sufficient level of tackiness, and transferring the radiopaque marking fluid to a medical device. The radiopaque marking fluid comprises a clear ink and tungsten particulates having a particulate size of more than one micron.

Abstract: In some embodiments, a screen printing plate 10 includes a metal mesh part 13 and a metal mask part 14 provided on one side of the metal mesh part 13 integrally with the metal mesh part 13. In addition, the metal mask part 14 has an opening part 14a, and when the dimension from the outer edge 14a2 of the opening part 14a to the metal mesh part 13 represents a fill depth, this fill depth is the largest in the part corresponding to the center area of the opening part 14a. The screen printing plate does not cause the actual printing thickness to vary easily, even when the target printing thickness is reduced.

Abstract: The invention is a method of using a turret styled decorator machine to decorate container media. The machine utilized has a rotatable turret and a number of circumferentially spaced container holding assemblies for holding a variety of pieces of “media,” such as a drink container, the exterior surface of which is to have ink applied to form an image. A plurality of workstations are positioned around the perimeter of the turret through which each media holder passes as the turret rotates. Due to the unique configuration of the decorating machine, each piece of media, once loaded, spins at a rate different from any other piece of media so that the entire decorating process is speed optimized for each print job. Further, container media may spin continuously during the decorating process so that the turret never needs to pause for media to stop rotating or to begin rotating.

Abstract: A vertical double-sided rotary screen transfer printing apparatus includes a vertical rack and one or more pair of rotary screen transfer printing assemblies horizontally disposed opposite to each other. Each rotary screen transfer printing assembly includes a rotary screen plate roller and a transfer roller arranged parallel to each other. The rotary screen plate roller transfers a pattern onto the transfer roller serving as a temporary transfer carrier. The transfer roller transfers the pattern onto a fabric passing in a vertical direction between the rotary screen transfer printing assemblies opposite to each other.

Abstract: We disclose herein an electronic device comprising: a state machine for receiving an output signal from a sensor; a comparator operatively coupled with the state machine; and a first processor operatively coupled with the comparator. The state machine is configured to receive the output signal from the at least one sensor to obtain sensor measurement data and configured to pass the obtained sensor measurement data to the comparator. The comparator is configured to process the obtained sensor measurement data into first processed sensor data, and configured to compare the first processed sensor data with a first predetermined threshold limit. The comparator is configured to inform the first processor about the obtained sensor measurement data if the first processed sensor data exceed the first predetermined threshold limit.

Abstract: A method and system for printing an image at multiple locations on a golf ball is disclosed herein. The printing station comprises a plurality of stamping stations, each of the plurality of stamping stations comprising a pad carousel comprising a plurality of pads, a plurality of curing stations, and a plurality of reorienting stations.

Abstract: A circuit comprising a microelectromechanical (MEMS) gyroscope and a gain circuit coupled with the MEMS gyroscope. The gain circuit is configured to receive a digitized drive signal based at least in part on a digitized drive voltage amplitude of the MEMS gyroscope. The gain circuit is also configured to determine a percentage change in quality factor of the MEMS gyroscope based at least in part on the digitized drive signal and a stored trim value of the MEMS gyroscope. The gain circuit is also configured to compensate for an effect of a change in the quality factor of the MEMS gyroscope based at least in part on the percentage change in quality factor.

Abstract: Embodiments of the disclosure are directed at determining rotor deterioration in a dynamoelectric machine. Various current and voltage measurements are carried out upon an exciter assembly when the dynamoelectric machine is operated at various speeds and at various occasions over an extended period of time. More particularly, a set of current and voltage measurements that are carried out when the dynamoelectric machine is in a slow-roll mode of operation can be used for determining a resistance of a current path through which the exciter assembly provides electrical power to a rotor assembly. A time-domain-to-frequency-domain conversion can be carried out upon this set of resistance measurements in order to generate a spectral signature. The spectral signature can then be evaluated to detect an altered rotor resistance condition and/or a rotor resistance alteration trend.

Abstract: A horizontal rotary screen transfer printing device includes a frame, two or more sets of rotary screen transfer printing assemblies which are horizontally disposed on the frame, and a back-pressure roller. Each rotary screen transfer printing assembly includes a rotary screen plate roller and a transfer roller arranged parallel to each other. The rotary screen plate roller transfers a pattern onto the transfer roller serving as a temporary transfer carrier. The transfer roller transfers the pattern onto a fabric passing between the back-pressure roller and the transfer roller in a horizontal direction.

Abstract: 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.

Abstract: A method for manufacturing a printed can lid (1) of a can with a digital printing method; comprising at least the following steps: a) making available a shell (2) with an outer face (3) and an inner face (4); b) making available a control unit (9) and a printed image (8), wherein the printed image (8) can be processed in the control unit (9); c) making available at least a first digital printing unit (10) with at least one printing head (11); wherein the printed image (8) which is made available by the control unit (9) can be printed onto the outer face (3) with the printing head (11); and d) printing the printed image (8) which is made available by the control unit (9) onto the outer face (3) with the printing head (11).

Abstract: 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.

Abstract: An apparatus (1) for preparing a flexographic printing sleeve (3) comprises a support structure (21), comprising first support mechanism (2) which defines a workstation for rotatably supporting a first flexographic printing sleeve (3) such that it can rotate about a preset axis (K-K), a roll (11) of double-sided adhesive tape rotatably supported by a second support mechanism (10), and a first feeding and guiding mechanism (13) for unwinding the double-sided adhesive tape (12) from the roll (11) and directing the double-sided adhesive tape (12) to the surface of the first sleeve (3).

Abstract: Automated inspection technology is integrated with a cylindrical container print decorator machine to optimize the decoration process by making critical process and machine information properly and immediately available for corrective adjustments to the process. With this information, a high speed decoration machine operator will be made directly aware of the portions or subsystems of the decorator machine not functioning properly. The information directly facilitates, and can even recommend, corrective adjustments that are necessary to the decorator to better optimize printing functions. It is possible to use this information to optimize the operation of the decorator. It is possible to use this information by way of a properly configured control system, after specific augmentation capabilities are added to the decorator machine, to automatically close the loops with specific decorator printing machine parts or subsystems to dramatically improve the decorating process even while the machine is printing.

Abstract: A printing machine includes an isolated chamber for the print medium cartridge, which chamber can be opened and accessed without interrupting the print process. In order to enable such a configuration, the cartridge and its cradle are also separated from the print carriage and carried on a shuttle movably mounted on a static rail. The shuttle includes a wall section which acts to isolate the chamber when the shuttle is located in a home position within the chamber.

Abstract: A method of screen printing positionally synchronizes a plurality of pallet assemblies on a first screen printing machine with a plurality of pallet assemblies on a second screen printing machine. A screen printed garment having a properly aligned first image received from the first screen printing machine is transferred on a portion of one of the pallet assemblies on the first screen printing machine to one of the plurality of pallet assemblies on the second printing machine. The properly aligned first image on the garment is in proper positional alignment with a screen printing head on the second screen printing machine such that a second image complimentary to the first image is printed on the garment in proper position on the garment relative to the first image without user intervention to positionally locate the first image relative to the screen printing head on the second machine.

Abstract: An apparatus for texturing or patterning discrete substrates by imprinting a curable lacquer with a discrete flexible stamp and curing the imprinted lacquer resulting in an additional functional textured layer on a discrete substrate is provided having at least a first and a second clamp, a first roller and at least one driven belt connected with the first clamp and with the second clamp and capable of moving the clamped flexible stamp wherein either the roller is not able to cause its own rotation, but is driven by the stamp which in turn is driven by the belt which in turn is driven by a belt driving device, or the roller is driven at the same speed as the belt by a roller driving device which follows the belt driving device in a master slave configuration.

Abstract: An embossing apparatus includes an embossing die that includes a printed relief pattern made up of multiple layers of a deposited material. A resilient surface presses media against the embossing die such that embossed features corresponding to the embossing die are formed in the media. A method for embossing media includes forming an embossing die by depositing multiple layers of ink on a impression layer to form a relief pattern and pressing media against the embossing die to transfer the relief image to the media.

Abstract: According to one embodiment, a tablet printing apparatus includes: a first rotator having an inner space; a duct configured to communicate with the inner space of the first rotator; a suction pipe configured to suck inside the duct; a second rotator arranged to face the first rotator across the duct; a conveyor belt wrapped around the first rotator and the second rotator; and a print head that performs printing on a tablet held on the conveyor belt. The conveyor belt includes a plurality of suction holes which communicate with the inner space of the first rotator and that of the duct, and are arranged in the rotation direction of the first rotator. The first rotator and the duct constitutes a suction chamber that applies a suction force to those of the suction holes of the conveyor belt located around the outer periphery of the first rotator and the duct.