Patent application number | Description | Published |
20090131815 | MARKER DEPLOYMENT DEVICE - A marker deployment system is provided, including at least one cannula, a site marker and at least one wire. The cannula has a tubular side-wall and a distal opening. The cannula defines at least one aperture extending through the side-wall. The wire is selectively interposed within the cannula, and a distal wire end extends through the aperture. A portion of the wire is secured to an end portion of the site marker. The wire is pulled taut at the aperture, thereby at least partially aligning the end portion of the site marker with the distal opening of the cannula. | 05-21-2009 |
20100114031 | INTRODUCER LOCALIZATION ASSEMBLIES - An introducer assembly is disclosed. The introducer assembly comprises an introducer cannula, an introducer hub and an introducer stylet body. The introducer cannula is defined by a distal end and a proximal end and has a lumen extending therebetween. The introducer hub is operatively connected to the introducer cannula, and wherein the introducer hub is configured for selective connection with multiple medical devices. The introducer stylet body is defined by a proximal end and a distal end and is removably disposed within the introducer cannula. The introducer stylet body may further comprise an imagable feature having a predetermined size disposed on a distal end thereof. | 05-06-2010 |
20100160777 | REVERSE DEPLOYMENT DEVICE - A site marker deployment device is disclosed. The site marker deployment device comprises an inner member and a deployment cannula. The inner member has a distal end. The deployment cannula has an open distal end. The deployment cannula is slidably disposed over the inner member and a site marker that is disposed within the deployment cannula adjacent the inner member at the distal end of the depolyment cannula. The inner member is configured to be held generally stationary relative to a target location as deployment cannula is selectively moved between a pre-deployment configuration wherein the deployment cannula is positioned over at least a portion of the site marker and a deployed configuration wherein the deployment cannula is retracted such that the site marker is released from the deployment cannula. | 06-24-2010 |
20110004119 | SURGICAL SYSTEM - A surgical device is disclosed that comprises a cutting element, a biopsy line, a motor line, and a vacuum line. The cutting element includes an outer cannula and an inner cannula. The biopsy line is operatively connected to a control console for moving the inner cannula within the outer cannula to cut tissue cores. The motor line is operatively connected to the control console for operating the surgical device. The vacuum line is operatively connected to the inner cannula. A selectively openable tissue filter is operatively connected to the inner cannula, and is also connected to the vacuum line. | 01-06-2011 |
20120078086 | Localizing Obturator with Site Marking Capability - A target localizing and marking device is provided including a cannula having proximal and distal ends and a lumen therebetween, and a tip member releasably attached to the distal end, where the tip member includes and outer shell and at least one inner chamber. The device further includes at least one image enhancing component disposed on the outer shell and/or within the at least one inner chamber, at least one marking component disposed in the at least one inner chamber, and a tip member deployment mechanism. The deployment mechanism has a manually engageable actuator, a portion of which is dimensioned to slidably pass through the lumen of the cannula, and is operable to separate the tip member from the cannula and deploy the tip member to a predetermined target site. In some implementations, the device is magnetic resonance imaging (MRI) compatible and is identifiable under MRI. | 03-29-2012 |
20130197394 | VACUUM ASSISTED BIOPSY NEEDLE SET - A biopsy device having a cutting element is disclosed. The cutting element includes an inner cannula having a tissue receiving aperture disposed proximate a distal end thereof and an inner lumen. The inner cannula is slidably disposed within the inner lumen of an outer cannula. A vacuum chamber is disposed about at least a portion of the cutting element and is configured to create a vacuum in the cutting element during a biopsy procedure. The inner cannula is advanced distally outwardly and to cause the vacuum to be generated in the vacuum chamber. The vacuum is delivered to the cutting element whereby tissue is drawn into the tissue receiving aperture. The outer cannula is advanced distally outwardly after the inner cannula such that tissue drawn into the tissue cutting aperture is severed. | 08-01-2013 |
20130331732 | SURGICAL SYSTEM - A surgical device is disclosed that comprises a cutting element, a biopsy line, a motor line, and a vacuum line. The cutting element includes an outer cannula and an inner cannula. The biopsy line is operatively connected to a control console for moving the inner cannula within the outer cannula to cut tissue cores. The motor line is operatively connected to the control console for operating the surgical device. The vacuum line is operatively connected to the inner cannula. A selectively openable tissue filter is operatively connected to the inner cannula, and is also connected to the vacuum line. | 12-12-2013 |
Patent application number | Description | Published |
20130264317 | Systems, Methods, and Devices for Transmitting Information to Thermal Processing Systems - In some aspects, a replaceable consumable component for performing a cutting or welding operation can include a body and a readable data storage device coupled to the body or integrated within the body, wherein the data storage device contains an operation instruction for a cutting or welding device. | 10-10-2013 |
20140069895 | AUTOMATED CARTRIDGE DETECTION FOR A PLASMA ARC CUTTING SYSTEM - The invention features methods and apparatuses for establishing operational settings of a plasma arc cutting system automatically using replaceable cartridges. A replaceable cartridge for use with a plasma arc cutting system includes a housing, a connection mechanism for coupling the housing to a plasma arc torch, an arc constrictor connected to the housing, an arc emitter connected to the housing, and an identification mechanism disposed relative to the housing and configured to communicate information to a reader of the plasma arc cutting system and automatically set at least one operating parameter of the plasma arc cutting system. | 03-13-2014 |
20140113527 | IDENTIFYING LIQUID JET CUTTING SYSTEM COMPONENTS - A consumable component of a liquid jet cutting system is provided. The consumable component includes a body defining a conduit for a liquid jet and a signal device located on or within the body for transmitting a signal associated with the consumable component to a reader. | 04-24-2014 |
20140131324 | Battery-Controlled Plasma Arc Torch System - A method is provided for operating a plasma arc torch system having a power supply and a plasma arc torch. The method includes supplying power to the power supply from a battery. The battery provides at least a portion of the power to generate a plasma arc by the plasma arc torch. The method also includes communicating a first signal, indicating at least one parameter of the battery, between the battery and a control unit of the power supply, generating a second signal, by the control unit, based on the at least one parameter of the battery, and controlling, using the control circuit, operation of the plasma arc torch based on the second signal. | 05-15-2014 |
20150027998 | PLASMA ARC CUTTING SYSTEM AND PERSONA SELECTION PROCESS - The invention features methods and apparatuses for establishing operational settings of a plasma arc cutting system. A plasma power supply includes a user selectable control. The user selectable control enables selection of a single cutting persona that establishes at least a current, a gas pressure or gas flow rate, and an operational mode of the plasma arc cutting system. | 01-29-2015 |
Patent application number | Description | Published |
20140156252 | HYBRID PLATFORM-DEPENDENT SIMULATION INTERFACE - According to one aspect of the present disclosure a system and technique for a hybrid platform-dependent simulation interface is disclosed. The system includes a processor and a simulation engine executable by the processor to provide a simulation environment for an application, the simulation engine simulating a non-simulation environment for hosting the application. The application comprises a library having a platform-independent application programming interface (API) for interacting with the simulation engine and a platform-dependent API providing an interface to the simulation engine using a platform-dependent hardware element, the platform-dependent hardware element unaffecting a non-simulation environment when the application is running in the non-simulation environment. | 06-05-2014 |
20140157289 | HYBRID PLATFORM-DEPENDENT SIMULATION INTERFACE - According to one aspect of the present disclosure, a method and technique for a hybrid platform-dependent simulation interface is disclosed. The method includes: encoding an application with a library having a platform-independent application programming interface (API) for interacting with a simulation engine, the simulation engine providing a simulated environment for hosting the application; and encoding the library with a platform-dependent API providing an interface to the simulation engine using a platform-dependent hardware element, the platform-dependent hardware element unaffecting a non-simulation environment when the application is running in the non-simulation environment. | 06-05-2014 |
20150088482 | SIMULATED COMPONENT CONNECTOR DEFINITION AND CONNECTION PROCESS - A dataset comprising a plurality of hardware component entries and one or more connection entries is processed. Each hardware component entry indicates a hardware component for simulation. Each connection entry indicates a plurality of hardware components to be connected. A plurality of simulated hardware components is created based, at least in part, on the plurality of hardware component entries. A simulated connection between a first simulated hardware component of the plurality of simulated hardware components and a second simulated hardware component of the plurality of simulated hardware components is created based, at least in part, on a connection entry of the one or more connection entries. | 03-26-2015 |
20150088483 | SIMULATED COMPONENT CONNECTOR DEFINITION AND CONNECTION PROCESS - A dataset comprising a plurality of hardware component entries and one or more connection entries is processed. Each hardware component entry indicates a hardware component for simulation. Each connection entry indicates a plurality of hardware components to be connected. A plurality of simulated hardware components is created based, at least in part, on the plurality of hardware component entries. A simulated connection between a first simulated hardware component of the plurality of simulated hardware components and a second simulated hardware component of the plurality of simulated hardware components is created based, at least in part, on a connection entry of the one or more connection entries. | 03-26-2015 |