Abstract: A system and method for use in applying a coating of a desired material onto one or more medical implant components. The system may include a thermal sprayer and a rotatable holding fixture having a plurality of mounting stations each operable to hold at least one medical implant component. The fixture may be operable to rotate about a central axis and each mounting station may be operable to rotate about a respective mounting station axis. The fixture may be arranged adjacent to the thermal sprayer so that during operation the desired material may be sprayed by the thermal sprayer upon an outer surface of each of the medical implant components while the fixture rotates about the central axis and while simultaneously therewith each of mounting stations having a respective medical implant component rotates about the respective mounting station axis.

Abstract: An automated system and method for applying thermoplastic adhesives to work pieces from a roll of adhesive segments applied to an adhesive segment-laden carrier release tape. The present invention may be implemented in a system that automatically advances the adhesive segment-laden carrier release tape to position an adhesive segment thereon in the apparatus for application thereof to a work piece. Accurate indexing and advancement of the adhesive segment-laden carrier release tape preferably is provided by optical indexing of the carrier release tape, e.g., by the optical detection of a transverse line or other index marking printed or otherwise provided on the adhesive segment carrier release along with the adhesive segments deposited thereon.

Abstract: A fiber lay-up apparatus and method includes one or more fiber sources from at least one fiber supply wherein a fiber may be fed under tension to provide a pre-stress to the fiber. The fiber lay-up apparatus may include a resin impregnator for impregnating a fiber with a resin. The fiber may be impregnated under pressure to reduce friction, to provide a motive force to move the fiber through the impregnator, or to enhance control over impregnation. The fiber may be shaped by a fiber shaping unit including one or more active or passive shaping members that provide enhanced control over the shape and placement of the fiber as the fiber leaves the fiber lay-up apparatus. A cutting element for cutting a fiber as it is being layed-up may be positioned proximal to the one or more shaping members, and may enable the fiber lay-up apparatus to end the lay-up of one fiber (or set of fibers) and begin the lay-up of a new fiber (or set of fibers) without delay.

Abstract: Methods and apparatuses for dispensing samples or reagents onto a target object are provided. A dispensing position designating section (62) designates the dispensing position on the target object (50), such as a membrane, based on an image of the target object (50) displayed on a monitoring section (60). A dispensing control section (64) positions the target object and the dispensing device relative to each other so that the designated dispensing position on the target object is placed beneath the dispensing device (10) and controls the dispensing operation of the dispensing device (10). A dispensing position information creating section (68) creates dispensing position information about the dispensing position on the target object (50) which is designated by the dispensing position designating section (62) and to which the dispensing operation has been performed and outputs it to the outside.

Abstract: A method of fabricating a composite part comprises generating a partial vacuum between a ply material and a form, advancing the partial vacuum and the ply material along the form, sensing an edge of a previously applied course of the ply material and cutting a profile on the ply material in response to the sensed edge.

Abstract: An ultrasonic welding system includes an ultrasonic welding stack mounted for linear movement and for applying a controlled force, speed, or a combination of force and speed to a first workpiece to press the first workpiece against a second workpiece to which the first workpiece is to be joined, and an electrically powered linear actuator coupled to the ultrasonic welding stack for moving the stack while applying a controlled force, speed, or a combination of force and speed to said stack, the actuator including an electrical servo motor producing rotational mechanical motion and an integrated converter for converting the rotational motion into linear motion. In one specific implementation, a controller is coupled to the linear actuator for controlling the force applied by said actuator to the ultrasonic welding stack, and a sensor is coupled to the servo motor for producing a signal related to the torque produced by the servo motor and supplying that signal to the controller.

Abstract: A hand held masking machine is described having one or more of the following features: a structurally designed metal frame, a directional handle with thumb grip, a cutting blade with a slotted adjusting means, a sheet reel including a wire spring with four pressure points for various core sizes, and a tape reel with a tapered face and flexible ribs that holds a variety of tape widths.

Abstract: The present invention provide an apparatus for manufacturing a bonded substrate that suppresses a defect in the bonded substrate. When the pressure in a vacuum chamber is at the atmospheric level, upper and lower chuck units respectively attract substrates through vacuum. When the vacuum chamber is depressurized, each chuck unit electrostatically attracts the associated substrate. During the depressurization of the vacuum chamber, the pressure for attracting each substrate to the associated chuck unit is controlled to be equal to the pressure in the vacuum chamber. This prevents each substrate from falling from or moving relative to the associated chuck unit. The first and second substrates are thus bonded together as accurately aligned.

Abstract: A rotary labelling machine comprises a carrousel that can be pivotally driven by a carrousel motor and a plurality of container stations supported by said carrousel, wherein each container station comprises a container-holder plate and a plate motor suitable to rotate the plate about its own axis, carrousel sensor means detecting the movement of the carrousel and generating a reference signal representative of the carrousel angular position, a plurality of local control units. Each control unit is connected with one of the plate motors, respectively, and is configured to receive and process the reference signal and generate a control signal specific for said plate motor. Signal propagation means are connected to the carrousel sensor means and to the local control units to propagate the reference signal to each of the local control units.

Abstract: A developing apparatus for developing a substrate whose surface is coated with a coating solution and then exposed includes a substrate supporting unit for horizontally supporting the substrate, a rotation driving mechanism for rotating the substrate supporting unit forwardly or backwardly with respect to a vertical axis, a developer nozzle, disposed to face a surface of the substrate supported by the substrate supporting unit, having a strip-shaped injection opening extended along a direction extending from a periphery of the substrate toward a central portion thereof, a moving unit for moving the developer nozzle from an outer portion of the substrate toward the central portion thereof, and a controller for controlling operations such that while the substrate is rotated forwardly by the rotation driving mechanism, a developer is supplied through the injection opening to the surface of the substrate by moving the developer nozzle and, then, the substrate is rotated backwardly by the rotation driving mechanis

Abstract: An apparatus and related method for laminating a masking film onto a pre-press flexographic printing plate to place the plate in optical contact with the film by applying a balanced, non-distorting force to the flexographic printing plate and masking film. This method includes laminating the pre-press flexographic printing plate with the film mask by applying an optimized lamination force to achieve optical contact while minimizing lateral film distortion.

Abstract: A pre-press flexographic plate laminator for laminating a masking film onto a pre-press flexographic printing plate. The apparatus can be used to apply a balanced, non-distorting force to a flexographic printing plate and masking film with an optimized lamination force to achieve optical contact while minimizing lateral film distortion.

Abstract: An apparatus for positioning and assembling of a circuit board includes a vacuum adsorption mechanism, an adjusting mechanism, at least four cameras, and a controller. The vacuum adsorption mechanism has a vacuum adsorption platform on which several holes are formed. The vacuum adsorption platform is connected to several vacuum, generators to control the adsorption and positioning of the main board of the circuit board. The vacuum adsorption platform has a through hole. The adjusting mechanism is mounted corresponding to the through hole. The adjusting mechanism is designed to enable the adsorbed daughter board to be adjustable in three axial directions. Two cameras are located corresponding to the main board. The other two cameras are located corresponding to the daughter board for detecting the optical points of the main board and the measuring points of the daughter board. The controller is electrically connected to these cameras.

Abstract: A stent mandrel fixture for supporting a stent during the application of a coating substance is provided.

Abstract: The present invention is a method and device, which is suitable for use in an operating theater just prior to implantation, for selectively applying a medical coating to an implantable medical device, for example a stent. Disclosed is a device for use with a stent deployed on a catheter balloon. The device is configured to apply a medical coating of a desired thickness to the surface of a stent only. This is done by use of a drop-on-demand ink-jet printing system in association with an optical scanning device. The device is further configured so as to, if necessary, apply a plurality of layered coats, each layered coat being of a different coating material, and if appropriate, different thickness. The section of the housing in which the stent is held during the coating procedure is detachable from the housing base. The detachable housing section may be easily cleaned and re-sterilized or simply disposed of.

Abstract: A system to fabricate a composite item includes an end effector, robotic vehicle, sensor, and cutting system. The end effector applies a course to a layup form. The robotic vehicle positions the end effector. The sensor senses an edge of a previously applied course. The cutting system cuts a profile on the course in response to the sensed edge.

Abstract: A microdeposition system and method includes a head with a plurality of nozzles. A controller generates nozzle firing commands that selectively fire the nozzles to create a desired feature pattern. Configuration memory stores voltage waveform parameters that define a voltage waveform for each of the nozzles. A digital to analog converter (DAC) sequencer communicates with the configuration memory and the controller and outputs a first voltage waveform for a first nozzle when a nozzle firing command for the first nozzle is received from the controller. A resistive ladder DAC receives the voltage waveforms from the DAC sequencer. An operational amplifier (opamp) communicates with the resistive ladder DAC and amplifies the voltage waveforms. The nozzles fire droplets when the voltage waveforms received from the opamp exceed a firing threshold of the nozzle.

Abstract: An automatic coating device uses a driving motor and a conveyer to form a cyclically rotating module. An injector filled with a coating material is disposed on one side of the conveyer. When an object to be coated is disposed on the other side of the moving conveyer, the coating material is then applied onto the object by the injector. This can increase the coating speed and quality.

Abstract: A method for joining fabrics, particularly high strength fabrics such as airship hull fabrics, including the steps of: measuring selected parameters of two fabric layers to be joined and the adhesive and any tape or other materials intended to be included in the joint; calculating therefrom an optimal value of a quality control parameter of an ideal joint, such as joint thickness, specific gravity or opacity; assembling the two fabric layers and other materials in the desired order; and applying heat and pressure to the assemblage until the selected quality control parameter of the joint, such as joint thickness, specific gravity or opacity, is satisfied.

Abstract: An offset measuring mechanism and method used in a bonding apparatus, in which the object plane of a position detection camera is set on a hypothetical bonding working plane, and the image of imaging elements within the imaging plane is projected onto a bonding working plane. Furthermore, the tip end of a bonding tool is aligned with the bonding working plane. The object plane of the offset measuring camera is set on the bonding working plane, and the image on the bonding working plane is projected onto the imaging elements of the imaging plane of the offset measuring camera. The imaging elements detect the projected image of the imaging elements of the position detection camera or the image of the tip end of the bonding tool and output this data to the image position measuring part or tool position measuring section of the control block.