Patent application number | Description | Published |
20110054510 | SYSTEM AND METHOD FOR ASSEMBLING A LANCING DEVICE USING A SPRING WINDING FIXTURE - A system and method for assembling a lancing device, and a lancing device fabricated according to such a system or method. A rotating disk is applied to a spring component and/or to a carrier component of the lancing device to mount the spring onto the carrier component. | 03-03-2011 |
20110130782 | ADVANCEMENT MECHANISM FOR CARTRIDGE-BASED DEVICES - An advancement mechanism of a lancing device operates to sequentially advance lancets in a cartridge. The advancement mechanism includes a rotary drive gear assembly with a first gear and a second gear that co-rotate in a first angular direction by operation of an inter-gear unidirectional drive mechanism such as a ratcheting mechanism. A second-gear unidirectional lock mechanism, such as a ratcheting mechanism, locks the second drive gear from co-rotating with the first drive gear in a second opposite angular direction without impeding rotation in the first direction. The second gear directly or indirectly rotationally drives a pinion gear, which rotationally drives a cartridge gear to advance the lancets in indexed increments for use. The first drive gear is rotated in the first and second directions by a rack gear of a translating operating handle. In addition, a rotary-gear cap-displacement mechanism and a rotary-gear charging/actuation mechanism are provided in other embodiments. | 06-02-2011 |
20110196261 | LANCING DEVICE WITH IMPROVED GUIDANCE MECHANISM - A lancing device having improved guidance features and a drive mechanism subassembly that is generically compatible with a variety of outer housing configurations, and an improved assembly method for fabricating a lancing device. | 08-11-2011 |
20130072818 | LANCING DEVICE AND LANCET - A lancing device and lancet are provided with depth-control, lancet ejection, and/or guidance mechanisms. The depth-control mechanism includes a dial rotationally mounted at a distal end of the housing of the lancing device, the dial being coupled to a linkage whereby rotation of the dial imparts translational movement to a stop surface of the linkage to limit the stroke of the lancet and thereby control lancing penetration depth. The ejection mechanism includes an ejector that is advanced into contact with a transversely flared flange of the lancet to discharge the lancet from the lancing device. The guidance mechanism includes an inner guidance housing for restricting out-of-axis movement of a lancet carrier. | 03-21-2013 |
20130072953 | LANCETS WITH IMPROVED COUPLING FEATURES AND STERILITY CAPS - Improved lancet configurations and protective lancet endcap configurations are disclosed. In example forms, one or more flexing cantilevers project from the lancet body for coupling with a cooperating receiver of a lancing device. A gripping handle extends from a sterility cap for ease of removal from and replacement over the lancet tip. A lancet body has a smoothly curved wave contour with at least one crest and at least one trough for engagement with a cooperating receiver of a lancing device. | 03-21-2013 |
Patent application number | Description | Published |
20130233033 | LOCKING MECHANISM WITH INTEGRAL EGRESS RELEASE - A locking mechanism for a door includes an outside actuator, an inside actuator, and a housing removably fixed to the door. A locking bar is selectively engageable with the housing. A first cam member is operable to move the locking bar from an unlocked position wherein the locking bar is released from the housing and a locked position wherein the locking bar is fixedly coupled to the housing. A spindle is rotatably coupled to the inside actuator and selectively coupled to the outside actuator. A second cam member is coupled to the first cam member and to the spindle and operable to move the locking bar from the locked position to the unlocked position in response to rotation of the inside actuator from a neutral position to one of a first clockwise position and a second counterclockwise position. | 09-12-2013 |
20130234453 | SYSTEM AND METHOD FOR ADJUSTING THE SPRING TORQUE OF A LOCK CHASSIS - A latch assembly configured to attach to a door includes one of a knob and a lever. The latch assembly further includes a latch extending from the door. A spindle is rotatable from a first position to a second position to move the latch from an extended position to a retracted position. A first biasing member is selectively operable to bias the spindle toward the first position. A second biasing member is selectively operable to bias the spindle toward the first position. An actuator is movable between a knob position in which only one of the first biasing member and the second biasing member biases the spindle toward the first position and a lever position in which both the first biasing member and the second biasing member cooperate to bias the spindle toward the first position. | 09-12-2013 |
20130340343 | DOOR CLOSER SYSTEM - A door closer system is provided that includes a motor, a spring, a reduction gear set, and a rack and a pinion mechanism. The spring and pinion may be coupled to the rack, and the pinion may be selectively coupled to the gear set. The motor may be selectively mechanically coupled to the gear set. The pinion may rotate in a first direction via the rack as the spring is compressed in a second direction opposite the first direction as the spring is expanded. The motor is operable to rotate and act upon the pinion through the gear set, thereby rotating the pinion in the second direction and assist the spring in closing the door. | 12-26-2013 |
Patent application number | Description | Published |
20130334234 | FOOD CONTAINER - A food container is provided that has a formed cavity having top edge and two or more flaps coupled with one the top edge. Each of the flaps may extend half-way or more between opposite points of the container. The flaps may include a closure mechanism to secure the flaps in a closed position to provide a covering for substantially all of the area defined by the top edge, thereby closing the formed cavity. The formed cavity may include one or more radiused portions, with one or more of the flaps including a raduised extension that extends outwardly relative to a connection point between the flap and the cavity top edge. One or more of the flaps may include a recessed portion having a flap sidewall that is located adjacent to a formed cavity sidewall when the flap is folded to cover a top opening of the food container. | 12-19-2013 |
20140021206 | FOOD CONTAINER WITH CUP RECESS - A food container includes a base and a lid, and the lid may have a recess configured to receive a second container. The base may comprise a formed cavity that provides a bowl into which food or other items may be placed. The recess in the lid may receive a cup containing another item, such as a condiment or topping. The cup with the condiment or topping may be inserted into the recess, and removed from the recess, without removing the lid from the base. The lid and/or the base may be formed from any suitable materials, such as a transparent or non-transparent plastic material, and/or a compostable material. | 01-23-2014 |
20150136794 | Food Container with Cup Recess - A food container includes a base and a lid, and the lid may have a recess configured to receive a second container. The base may comprise a formed cavity that provides a bowl into which food or other items may be placed. The recess in the lid may receive a cup containing another item, such as a condiment or topping. The cup with the condiment or topping may be inserted into the recess, and removed from the recess, without removing the lid from the base. The lid and/or the base may be formed from any suitable materials, such as a transparent or non-transparent plastic material, and/or a compostable material. | 05-21-2015 |
Patent application number | Description | Published |
20090082765 | REAL-TIME ARC CONTROL IN ELECTROSURGICAL GENERATORS - An electrosurgical generator is disclosed. The generator includes a radio frequency output stage configured to generate a radio frequency waveform and a sensor circuit configured to measure a property of the radio frequency waveform during a predetermined sampling period to determine whether an arc event has occurred. The generator also includes a controller configured to determine a total charge and/or total energy deposited by the radio frequency waveform during the predetermined sampling period associated with the arc event. The controller is further configured to adjust the output of the electrosurgical generator based on at least one parameter to limit arcing. | 03-26-2009 |
20110101862 | System and methods for plasma application - The present disclosure provides for a plasma system. The plasma system includes a plasma device, an ionizable media source, and a power source. The plasma device includes an inner electrode and an outer electrode coaxially disposed around the inner electrode. The inner electrode includes a distal portion and an insulative layer that covers at least a portion of the inner electrode. The ionizable media source is coupled to the plasma device and is configured to supply ionizable media thereto. The power source is coupled to the inner and outer electrodes, and is configured to ignite the ionizable media at the plasma device to form a plasma effluent having an electron sheath layer about the exposed distal portion. | 05-05-2011 |
20110139751 | PLASMA-BASED CHEMICAL SOURCE DEVICE AND METHOD OF USE THEREOF - The present disclosure provides for a plasma system including a plasma device coupled to a power source, an ionizable media source and a precursor source. During operation, the ionizable media source provides ionizable media and the precursor ionizable media source provides one or more chemical species, photons at specific wavelengths, as well as containing various reactive functional groups and/or components to treat the workpiece surface by working in concert for synergetic selective tissue effects. The chemical species and the ionizable gas are mixed either upstream or midstream from an ignition point of the plasma device and once mixed, are ignited therein under application of electrical energy from the power source. As a result, a plasma effluent and photon source is formed, which carries the ignited plasma feedstock and resulting mixture of reactive species to a workpiece surface to perform a predetermined reaction. | 06-16-2011 |
20110140607 | SYSTEM, METHOD AND APPARATUS FOR GENERATING PLASMA - A plasma generating system, related method and device are disclosed. The plasma generation system includes a plasma generation device, a source of ionizable gas and a driver network. The plasma generation device includes a housing, an electrode, and a resonant circuit. The housing includes a passage defined therein and directs a flow of ionizable gas therethrough. The electrode is coupled to the ionizable gas flowing through the passage of the housing. The resonant circuit includes a capacitor and an inductor connected together in series. The resonant circuit has a resonance frequency and is coupled to the electrode. The resonant circuit receives an AC signal. The driver network provides the AC signal such that the AC signal has a frequency and excites the ionizable gas flowing through the passage of the housing to a plasma. | 06-16-2011 |
20130023867 | SYSTEM AND METHOD OF MATCHING IMPEDANCES OF AN ELECTROSURGICAL GENERATOR AND/OR A MICROWAVE GENERATOR - A system for performing a surgical procedure includes a source of energy, a surgical instrument, and an impedance matching network. The source of energy is an electrosurgical generator or a microwave generator. The surgical instrument is coupled to the source of energy and receives the energy therefrom. The surgical instrument is adapted to treat tissue with the energy. The impedance matching network is interposed along a path of the energy and matches an input impedance of the source of energy to an output impedance (or thereabouts). | 01-24-2013 |
20130023870 | MICROWAVE AND RF ABLATION SYSTEM AND RELATED METHOD FOR DYNAMIC IMPEDANCE MATCHING - An electrosurgical system and method for performing electrosurgery is disclosed. The electrosurgical system includes an electrosurgical generator adapted to supply electrosurgical energy to tissue. The electrosurgical system includes an electrosurgical instrument, such as an electrosurgical antenna, knife, forceps, suction coagulator, or vessel sealer. The disclosed system includes an impedance sensor, a controller, dynamic impedance matching network, and an electrosurgical energy generator. The dynamic impedance matching network includes a PIN diode switching array configured to selectively activate a plurality of reactive elements. The disclosed arrangement of reactive elements provides real-time impedance correction over a wide range of impedance mismatch conditions. | 01-24-2013 |
20130023871 | MICROWAVE AND RF ABLATION SYSTEM AND RELATED METHOD FOR DYNAMIC IMPEDANCE MATCHING - An electrosurgical system and method for performing electrosurgery is disclosed. The electrosurgical system includes an electrosurgical generator adapted to supply electrosurgical energy to tissue. The electrosurgical system includes an electrosurgical instrument, such as an electrosurgical antenna, knife, forceps, suction coagulator, or vessel sealer. The disclosed system includes an impedance sensor, a controller, dynamic impedance matching network, and an electrosurgical energy generator. The dynamic impedance matching network includes a PIN diode switching array configured to selectively activate a plurality of reactive elements. The disclosed arrangement of reactive elements provides real-time impedance correction over a wide range of impedance mismatch conditions. | 01-24-2013 |
20130059273 | LIQUID-GAS INTERFACE PLASMA DEVICE - A method for whitening teeth is disclosed. The method includes supplying a liquid sufficient to at least partially submerge a portion of a tooth; positioning a plasma device adjacent to the submerged portion of the tooth; supplying ionizable media to the plasma device; and igniting the ionizable media at the plasma device sufficient to form a plasma effluent in the presence of the liquid at the distal portion, whereby the plasma effluent reacts with the liquid to form at least one reactive species that interacts selectively with foreign matter disposed on the tooth. | 03-07-2013 |
20130062014 | LIQUID-GAS INTERFACE PLASMA DEVICE - A plasma system for treating a workpiece is disclosed. The plasma system includes: a plasma device including an electrode formed from a metal alloy and a dielectric layer covering the electrode, the dielectric layer including a distal portion extending distally past a distal end of the electrode by a predetermined distance; a liquid source configured to supply a liquid to a workpiece; an ionizable media source coupled to the plasma device and configured to supply ionizable media thereto; and a power source coupled to the electrode and configured to ignite the ionizable media at the plasma device to form a plasma effluent in the presence of the liquid, whereby the plasma effluent reacts with the liquid to form at least one reactive species that interacts with the workpiece. | 03-14-2013 |
20130116682 | Non-Stick Conductive Coating for Biomedical Applications - The present disclosure provides a plasma system including a plasma device having at least one electrode; an ionizable media source coupled to the plasma device and configured to supply ionizable media thereto; a precursor source configured to supply at least one monomer precursor to the plasma device; and a power source coupled to the at least one electrode and configured to ignite the ionizable media at the plasma device to form a plasma effluent at atmospheric conditions, wherein the plasma effluent polymerizes the at least one monomer precursor to form a hydrophobic, electrically-conductive polymer. | 05-09-2013 |
20140025064 | REAL-TIME ARC CONTROL IN ELECTROSURGICAL GENERATORS - An electrosurgical generator is disclosed. The generator includes a radio frequency output stage configured to generate a radio frequency waveform and a sensor circuit configured to measure a property of the radio frequency waveform during a predetermined sampling period to determine whether an arc event has occurred. The generator also includes a controller configured to determine a total charge and/or total energy deposited by the radio frequency waveform during the predetermined sampling period associated with the arc event. The controller is further configured to adjust the output of the electrosurgical generator based on at least one parameter to limit arcing. | 01-23-2014 |
20150200076 | SYSTEM AND METHODS FOR PLASMA APPLICATION - A plasma system includes a plasma device, an ionizable media source, and a power source. The plasma device includes an inner electrode and an outer electrode coaxially disposed around the inner electrode. The inner electrode includes a distal portion and an insulative layer that covers at least a portion of the inner electrode. The ionizable media source is coupled to the plasma device and is configured to supply ionizable media thereto. The power source is coupled to the inner and outer electrodes, and is configured to ignite the ionizable media at the plasma device to form a plasma effluent having an electron sheath layer about the exposed distal portion. | 07-16-2015 |