Abstract: Embodiments of an apparatus, system and method for facilitating the tracking of consumable pharmaceutical articles are disclosed. A marking apparatus is configured to apply unique indelible identifiers to pharmaceutical articles at the point-of-sale. The indelible identifiers on the articles are visually or electronically readable to allow each respective article to be traced with respect to its manufacturer, prescribing physician, patient to whom it was prescribed, dispensing location, expiration date, dosage, or some combination thereof. An associated system and method may involve the provision of a remote database element configured to be in network communication between the marking apparatus, manufacturer, distributor, prescriber, dispensing location, scanning tool, or some combination thereof. The indelible identifier may initially be generated by the apparatus and then obtained and recorded by the remote database element.

Abstract: Embodiments of a method and system for applying patterns on the surfaces of articles and inspecting the patterns are disclosed. A laser irradiation system has a laser transmission element, irradiation zone and irradiation inspection element. A set of articles is positioned within the irradiation zone and irradiated with laser energy from the transmission element during an irradiation period. The irradiation causes interactions between a beam and the article surfaces which transiently generate localized illuminations at the article surfaces during the interactions. The interactions also collectively form post-irradiation patterns in the article surfaces that persist after the interactions. An irradiation inspection image of the irradiation zone is captured during the irradiation period by the irradiation inspection element. The irradiation inspection image includes illumination patterns defined by the localized illuminations.

Abstract: Embodiments of an apparatus, system and method for facilitating the tracking of consumable pharmaceutical articles are disclosed. A marking apparatus is configured to apply unique indelible identifiers to pharmaceutical articles at the point-of-sale. The indelible identifiers on the articles are visually or electronically readable to allow each respective article to be traced with respect to its manufacturer, prescribing physician, patient to whom it was prescribed, dispensing location, expiration date, dosage, or some combination thereof. An associated system and method may involve the provision of a remote database element configured to be in network communication between the marking apparatus, manufacturer, distributor, prescriber, dispensing location, scanning tool, or some combination thereof. The indelible identifier may initially be generated by the apparatus and then obtained and recorded by the remote database element.

Abstract: Embodiments of an apparatus, system and method for facilitating the tracking of consumable pharmaceutical articles are disclosed. A marking apparatus is configured to apply unique indelible identifiers to pharmaceutical articles at the point-of-sale. The indelible identifiers on the articles are visually or electronically readable to allow each respective article to be traced with respect to its manufacturer, prescribing physician, patient to whom it was prescribed, dispensing location, expiration date, dosage, or some combination thereof. An associated system and method may involve the provision of a remote database element configured to be in network communication between the marking apparatus, manufacturer, distributor, prescriber, dispensing location, scanning tool, or some combination thereof. The indelible identifier may initially be generated by the apparatus and then obtained and recorded by the remote database element.

Abstract: Embodiments of an apparatus, system and method for facilitating the tracking of consumable pharmaceutical articles are disclosed. A marking apparatus is configured to apply unique indelible identifiers to pharmaceutical articles at the point-of-sale. The indelible identifiers on the articles are visually or electronically readable to allow each respective article to be traced with respect to its manufacturer, prescribing physician, patient to whom it was prescribed, dispensing location, expiration date, dosage, or some combination thereof. An associated system and method may involve the provision of a remote database element configured to be in network communication between the marking apparatus, manufacturer, distributor, prescriber, dispensing location, scanning tool, or some combination thereof. The indelible identifier may initially be generated by the apparatus and then obtained and recorded by the remote database element.

Abstract: A laser capsule marking system and method may comprise at least two indexing wheels, a feeding mechanism, a laser marker, a first inspection system, a rejection subsystem, a reject verification sensor, and a collection device. The wheels are coaxial and have respective circumferential peripheries with multiple open pockets distributed thereabout. Each pocket is configured to releasably receive a pharmaceutical capsule doped with pigment particles reactive to laser light. The indexing wheels are configured to be incrementally rotated in alternating indexing fashion for transporting discrete arrays of respective pockets through a loading zone, an inspection zone, a marking zone, a reject zone, and an unloading zone. An actuatable reject block may be provided to simultaneously blow a rejected capsule from its pocket, and draw it in for transport to a rejection bin. Each circumferential periphery may be comprised of multiple arcuate shoes removably and replaceably secured to their respective indexing wheel.

Abstract: A multiplicity of sleeve subassemblies each include an electrically insulative portion, and are configured to support an electrical contact having a socket. Each insulative portion has a socket bore and at least one radial aperture extending radially outward therefrom. The sleeve subassemblies are transported across a plating bath whereby at least a lower segment of the insulative portions become submerged in plating solution. The socket bore maskingly engages the contact, thereby substantially preventing plating solution from contacting the outer surface of the socket. The radial apertures facilitate the continuous flow of plating solution through each socket so as to enable selective plating of the socket inner surface. The sleeve subassemblies may be formed from mutually-engageable half-sleeves conveyed on separate closed-loop transport belts so as to facilitate efficient loading, plating and release of the electrical contacts.

Abstract: A laser capsule marking system and method may comprise at least two indexing wheels, a feeding mechanism, a laser marker, a first inspection system, a rejection subsystem, a reject verification sensor, and a collection device. The wheels are coaxial and have respective circumferential peripheries with multiple open pockets distributed thereabout. Each pocket is configured to releasably receive a pharmaceutical capsule doped with pigment particles reactive to laser light. The indexing wheels are configured to be incrementally rotated in alternating indexing fashion for transporting discrete arrays of respective pockets through a loading zone, an inspection zone, a marking zone, a reject zone, and an unloading zone. An actuatable reject block may be provided to simultaneously blow a rejected capsule from its pocket, and draw it in for transport to a rejection bin. Each circumferential periphery may be comprised of multiple arcuate shoes removably and replaceably secured to their respective indexing wheel.

Abstract: A multiplicity of sleeve subassemblies each include an electrically insulative portion, and are configured to support an electrical contact having a socket. Each insulative portion has a socket bore and at least one radial aperture extending radially outward therefrom. The sleeve subassemblies are transported across a plating bath whereby at least a lower segment of the insulative portions become submerged in plating solution. The socket bore maskingly engages the contact, thereby substantially preventing plating solution from contacting the outer surface of the socket. The radial apertures facilitate the continuous flow of plating solution through each socket so as to enable selective plating of the socket inner surface. The sleeve subassemblies may be formed from mutually-engageable half-sleeves conveyed on separate closed-loop transport belts so as to facilitate efficient loading, plating and release of the electrical contacts.

Abstract: A laser capsule marking system and method may comprise at least two indexing wheels, a feeding mechanism, a laser marker, a first inspection system, a rejection subsystem, a reject verification sensor, and a collection device. The wheels are coaxial and have respective circumferential peripheries with multiple open pockets distributed thereabout. Each pocket is configured to releasably receive a pharmaceutical capsule doped with pigment particles reactive to laser light. The indexing wheels are configured to be incrementally rotated in alternating indexing fashion for transporting discrete arrays of respective pockets through a loading zone, an inspection zone, a marking zone, a reject zone, and an unloading zone. An actuatable reject block may be provided to simultaneously blow a rejected capsule from its pocket, and draw it in for transport to a rejection bin. Each circumferential periphery may be comprised of multiple arcuate shoes removably and replaceably secured to their respective indexing wheel.

Abstract: A dielectric barrier discharge plasma generator includes a dielectric chamber. The chamber contains or incorporates a solid surface that is to be treated with non-thermal plasma. The chamber can be substantially sealed and confine an atmosphere therein. An atmosphere control system is provided for controlling the atmosphere within the chamber. At least one or two electrodes are located outside of the chamber. When actuated by an appropriate source of plasma generating electrical power the electrodes cause the generation of a solid surface modifying non-thermal plasma in a plasma zone within the chamber. A transport system is provided for moving the electrode and the chamber relative to one another. A plasma zone is confined within the chamber adjacent to the electrodes, and remains substantially stationary relative to the electrodes. The chamber carries the solid surface through the plasma zone. The solid surface remains substantially stationary relative to the chamber.

Abstract: A contact magazine loader for guiding the insertion of individual electrical contacts into a crimping section of a crimping tool. A magazine is adapted to be placed in removable and rotatable engagement with a hand-held crimping tool. The magazine is approximately cylindrical, has a plurality of channels evenly dispersed around the radial periphery of the magazine, and is preloadable with electrical contacts. Each preloaded electrical contact is positioned within an individual insert casing. Each insert casing is adapted to being linearly slideably received into one of the channels. As a shuttle assembly is moved into compressed configuration, an insert casing guides the preloaded electrical contact into the crimping section of the hand-held crimper. A trigger assembly allows a user, with a single movement, to cause the shuttle assembly to return to its released configuration, and to rotate the magazine to axially align a subsequent casing with the crimping section of the hand held crimper.

Abstract: A dielectric barrier discharge plasma generator includes a dielectric chamber. The chamber contains or incorporates a solid surface that is to be treated with non-thermal plasma. The chamber can be substantially sealed and confine an atmosphere therein. An atmosphere control system is provided for controlling the atmosphere within the chamber. At least one or two electrodes are located outside of the chamber. When actuated by an appropriate source of plasma generating electrical power the electrodes cause the generation of a solid surface modifying non-thermal plasma in a plasma zone within the chamber. A transport system is provided for moving the electrode and the chamber relative to one another. A plasma zone is confined within the chamber adjacent to the electrodes, and remains substantially stationary relative to the electrodes. The chamber carries the solid surface through the plasma zone. The solid surface remains substantially stationary relative to the chamber.

Abstract: A low cost crimpable and sealable contact assembly including a contact member and a tubular sleeve member. The contact member is capable of being manually continuity crimped to a tip of an electrically conductive core of an electrically insulated wire. The tubular sleeve member is then deformed to hermetically seal it to the insulation on the wire, and the contact member. The hermetic seal protects the core from corrosion. This hermetic seal is particularly important where the core comprises aluminum. Separating the crimping and sealing into separate operations permits them to be performed manually. The sleeve member may be comprised of polymeric material, or it may be metallic. The metallic embodiments may be mechanically or electromagnetically deformed. The polymeric sleeve members may, in addition, be heat shrunk.

Abstract: An object substrate that contains a markingly effective amount of a radiation sensitive marking material such as titanium dioxide is subjected to a patterned pulsed beam of coherent energy having a level of flux density that is at least sufficient to cause the radiation sensitive marking material to change color without degrading the object substrate. The pulsed beam of coherent energy derives its pattern from the instantaneous configuration of individual mirrors on the face of a digital mirror device (DMD) as the energy is reflected from that mirror face. The level of flux intensity at the mirror face is less than the level at which the DMD is at risk of damage or disruption. The level of flux intensity at the object substrate to be marked is sufficient to cause the titanium dioxide to change color, and substantially above the level at which the DMD is at substantial risk of damage or disruption.

Abstract: A unique method of simultaneously marking both packaging and prepackaged articles such as tablets, pills, medical devices, and the like on the fly, without the deposition of ink or other marking materials on their surfaces, and without degrading the prepackaged articles or breaching the packaging. The markings can serve as unique identifiers for each individual marked article (serial numbers), as product identifiers (bar codes), or as tamper protection (positioning symbols), or the like. One product can be provided with all three types of marking, if desired. A radiation sensitive marking material such as titanium dioxide, for example, can be provided in both the article and a markingly associated window of packaging material. The article and the window together provide a marked pair.

Abstract: A unique method of marking individual consumable articles such as tablets, pills, and the like on the fly, without the deposition of ink or other marking materials on their surfaces, without degrading the articles, and without precise positioning and holding of the articles. Titanium dioxide is provided in a visible layer of the consumable articles in an amount that is effective to provide a mark when exposed to an effective amount of ultraviolet laser energy. The energy is emitted in a predefined pattern on the surface of the articles so as to define the desired marking pattern. Marking is effectively instantaneous, thereby permitting the target articles to be marked while in motion to efficiently and inexpensively provide marking rates that are as much as twenty times more than those provided by prior art ink deposition systems. Marking can be accomplished even when the articles are encapsulated in ultraviolet transparent packaging.

Abstract: Method of improving wetting and adhesive properties of dielectric materials by injecting electrical charges into the substrate under conditions such that the primary effect on the surface is that of charging so that improved wettability of the surface will be achieved. Flowable materials are then applied to the surface and cured in situ to permanently adhere the flowable materials to the surface.