Patent application number | Description | Published |
20080277552 | MECHANICAL ARM INCLUDING A COUNTER-BALANCE - A mechanical arm comprises a forearm, a spring, and an upper arm disposed between the forearm and the spring, wherein the forearm applies a moment to the upper arm. A copying device associated with the upper arm copies a force associated with the moment to the spring. The spring is adapted to apply a counter-force resisting at least a portion of the moment to reduce a torque for urging the forearm. | 11-13-2008 |
20100154578 | METHOD AND APPARATUS FOR REDUCING AT LEAST ONE FRICTION FORCE OPPOSING AN AXIAL FORCE EXERTED THROUGH AN ACTUATOR ELEMENT - Actuator elements such as cables or push rods in an instrument are used for manipulating an end effector or distal end of the instrument. Each actuator element extends within a tubular housing and either the tubular housing is axially rotated about the actuator element or the actuator element is axially rotated within the tubular housing to reduce at least one force opposing an axial force exerted through or movement of the actuator element. | 06-24-2010 |
20100168510 | SURGICAL INSTRUMENTS WITH SHEATHED TENDONS - A flexible surgical instrument employs sheaths around tendons that actuate an end effector or other mechanisms in a distal tip of the instrument. A liquid lubricant can be introduced in the sheaths to reduce friction, and the sheaths can be porous or non-porous. The lubricant can be confined, for example, with an o-ring or a bellow seal, to keep lubricant from leaking where the tendons extend out of the sheaths. More generally, the distal end of the instrument is sealed to prevent leakage of lubricant into a patient. To further reduce risks, a non-toxic water-based lubricant can be used. | 07-01-2010 |
20100168721 | LUBRICATING TENDONS IN A TENDON-ACTUATED SURGICAL INSTRUMENT - A flexible surgical instrument employs sheaths around tendons that actuate an end effector or other mechanisms in the instrument. A liquid lubricant can be introduced in the sheaths to reduce friction. Disclosed combinations of tendon, sheath, and lubricant compositions reduce friction to suitable levels for operation of a minimally invasive instrument and are not harmful or toxic to a patient. | 07-01-2010 |
20100243377 | DEVICE FOR TRANSLATING A FORCE INCLUDING A FOCUSED GROOVE - A device to change the direction or point of application of a force comprises a body having an axis, a groove formed within the body so that the groove has a helical shape along at least a portion of the axis, the groove adapted to receive a cable, wherein a helical angle of the groove varies so that a tangent of the helical angle along the groove substantially intersects a single point remote from the body. | 09-30-2010 |
20100331820 | COMPLIANT SURGICAL DEVICE - A compliant surgical device such as a flexible entry guide employs tendons to operate or steer the device and attaches asymmetric or constant force spring systems to control tension in the tendons. As a result, the surgical device can be compliant and respond to external forces during a surgical procedure without rapidly springing back or otherwise causing a reaction that damages tissue. The compliance also permits manual positioning or shaping of the device during or before insertion for a surgical procedure without damaging the tendons or connections of the tendons within the device or to a backend mechanism | 12-30-2010 |
20110187036 | ADJUSTABLE STIFFNESS SPRING - A mechanical arm comprises a forearm, a spring, and an upper arm disposed between the forearm and the spring, wherein the forearm applies a moment to the upper arm. A translation device associated with the upper arm translates a force associated with the moment to the spring. The spring is adapted to apply a counter-force resisting at least a portion of the moment to reduce a torque for urging the forearm. | 08-04-2011 |
20110277580 | Force Transmission for Robotic Surgical Instrument - A force transmission transmits a force received by an input gimbal plate having two degrees of freedom to an output gimbal plate. The input gimbal plate is coupled to a first end of least three lever arms supported by a pivot. The output gimbal plate is coupled to a second end of the lever arms. The output gimbal plate may be coupled to the lever arms by flexible cables. The cables may be substantially contained within a tube. The output gimbal plate may be substantially smaller than the input gimbal plate. The force transmission may include a secondary output gimbal plate coupled to secondary levers that are coupled to the lever arms. The secondary levers may be third class levers. The secondary output gimbal plate may move proportionately to movement of the output gimbal plate. The force transmission may control a surgical end effector in a robotic surgical instrument. | 11-17-2011 |
20110277776 | SURGICAL SYSTEM STERILE DRAPE - A sterile drape, a surgical system with the drape, and a draping method are provided. In one embodiment, a sterile drape includes a plurality of drape pockets, each of the drape pockets including an exterior surface to be adjacent a sterile field for performing a surgical procedure and an interior surface to be adjacent a non-sterile instrument manipulator coupled to a manipulator arm of a robotic surgical system. The drape further includes a plurality of flexible membranes at a distal face of each of the drape pockets for interfacing between outputs of an instrument manipulator and inputs of a respective surgical instrument, and a rotatable seal adapted to couple a proximal opening of each of the drape pockets to a rotatable element at a distal end of the manipulator arm. | 11-17-2011 |
20110282351 | SURGICAL SYSTEM ENTRY GUIDE - An entry guide tube and cannula assembly, a surgical system including the assembly, and a method of surgical instrument insertion are provided. In one embodiment, the assembly includes a cannula having a proximal portion that operably couples to an accessory clamp of a manipulator arm, and a distal tubular member coupled to the proximal portion, the tubular member having an opening for passage of at least one instrument shaft. The assembly also includes an entry guide tube rotatably coupled to the proximal portion of the cannula, the entry guide tube including a plurality of channels for passage of a plurality of instrument shafts, wherein the entry guide tube is rotatably driven relative to the proximal portion of the cannula by rotation of at least one instrument shaft about a longitudinal axis of the entry guide tube. | 11-17-2011 |
20110282356 | SURGICAL SYSTEM INSTRUMENT MANIPULATOR - An instrument manipulator and a robotic surgical system including an instrument manipulator are provided. In one embodiment, an instrument manipulator includes a plurality of independent actuator drive modules, each of the plurality of actuator drive modules including an actuator output, wherein each of the actuator outputs are configured to independently actuate a corresponding actuator input of a surgical instrument without force input from another actuator output. The instrument manipulator further includes a frame housing the plurality of independent actuator drive modules, the frame including a distal end from which each of the actuator outputs distally protrude for engaging the corresponding actuator inputs of the surgical instrument. | 11-17-2011 |
20110282357 | SURGICAL SYSTEM ARCHITECTURE - Robotic surgical systems are provided. In one embodiment, the system includes a setup link for locating a remote center of motion for the robotic surgical system; a manipulator arm assembly including an active proximal link and an active distal link, the proximal link operably coupled to the setup link; and a plurality of instrument manipulators operably coupled to a distal end of the distal link, the plurality of instrument manipulators rotatable about an instrument manipulator assembly roll axis. A cannula mount is movably coupled to a proximal end of the distal link, and a cannula is coupled to the cannula mount, the cannula having a longitudinal axis substantially coincident with the instrument manipulator assembly roll axis. The system further includes an entry guide tube at least partially within the cannula, the entry guide tube rotatable about the longitudinal axis of the cannula. | 11-17-2011 |
20110282358 | SURGICAL SYSTEM INSTRUMENT MOUNTING - Robotic surgical systems and methods of coupling a surgical instrument to a manipulator arm are provided. In one embodiment, a system includes a base; a setup link operably coupled to the base, the setup link locating a remote center of motion for the robotic surgical system; a proximal link operably coupled to the setup link; and a distal link operably coupled to the proximal link. A plurality of instrument manipulators are rotatably coupled to a distal end of the distal link, each of the instrument manipulators including a plurality of actuator outputs distally protruding from a distal end of a frame. | 11-17-2011 |
20110282359 | SURGICAL SYSTEM COUNTERBALANCE - A counterbalancing link, a surgical system, and a method of adjusting a counterbalancing link are provided. In one embodiment, a counterbalancing link of a robotic surgical system includes a housing, and a compression spring disposed along a lengthwise axis of the housing, the compression spring having a first end and a second end. The counterbalancing link further includes a base at a first end of the housing, the base coupled to the first end of the compression spring and including at least one adjustment screw configured to adjust an orientation of the first end of the spring. A plug is disposed at a second end of the housing, the plug coupled to the second end of the compression spring and including an adjustment pin configured to adjust an orientation of the second end of the spring. The counterbalancing link further includes a cable having a first end coupled to a load and a second end coupled to the plug, the cable passing through a pulley at the base and the compression spring counterbalancing at least a part of the load. | 11-17-2011 |
20120022553 | Side Looking Minimally Invasive Surgery Instrument Assembly - Two surgical instruments are inserted through a guide tube. The surgical instruments exit at an intermediate position of the guide tube and are oriented to be substantially parallel to the guide tube's longitudinal axis as they exit. A stereoscopic image capture component is on the guide tube between the intermediate position and the guide tube's distal end. The image capture component's field of view is generally perpendicular to the guide tube's longitudinal axis. The surgical instruments and the guide tube are telemanipulatively controlled. | 01-26-2012 |
20120046669 | RETROGRADE INSTRUMENT - A minimally invasive surgical instrument includes a U-turn mechanism that transmits actuating forces around a U-turn. The U-turn mechanism is coupled between segments of the instrument and has a bend radius that is smaller than flexible arms having a similar cross section diameter. The actuating forces transmitted by the U-turn mechanism are used to move distal components of the instrument, such as an end effector and a wrist mechanism. | 02-23-2012 |
20120083654 | SIDE LOOKING MINIMALLY INVASIVE SURGERY INSTRUMENT ASSEMBLY - A surgical instrument is inserted through a guide tube. The surgical instrument exits at an intermediate position of the guide tube and is oriented to be substantially parallel to the guide tube's longitudinal axis as it exits. A stereoscopic image capture component is on the guide tube between the intermediate position and the guide tube's distal end. The image capture component's field of view is generally perpendicular to the guide tube's longitudinal axis. The guide tube is jointed to allow the image capture component to be moved. The surgical instruments and the guide tube are telemanipulatively controlled. | 04-05-2012 |
20120174694 | METHOD AND APPARATUS FOR REDUCING AT LEAST ONE FRICTION FORCE OPPOSING AN AXIAL FORCE EXERTED THROUGH AN ACTUATOR ELEMENT - Actuator elements such as cables or push rods in an instrument are used for manipulating an end effector or distal end of the instrument. Each actuator element extends within a tubular housing and either the tubular housing is axially rotated about the actuator element or the actuator element is axially rotated within the tubular housing to reduce at least one force opposing an axial force exerted through or movement of the actuator element. | 07-12-2012 |
20130053868 | SIDE LOOKING MINIMALLY INVASIVE SURGERY INSTRUMENT ASSEMBLY - A surgical instrument is inserted through a guide tube. The surgical instrument exits at an intermediate position of the guide tube and is oriented to be substantially parallel to the guide tube's longitudinal axis as it exits. A stereoscopic image capture component is on the guide tube between the intermediate position and the guide tube's distal end. The image capture component's field of view is generally perpendicular to the guide tube's longitudinal axis. The guide tube is jointed to allow the image capture component to be moved. The surgical instruments and the guide tube are telemanipulatively controlled. | 02-28-2013 |
20130079794 | SURGICAL SYSTEM ENTRY GUIDE - An entry guide tube and cannula assembly, a surgical system including the assembly, and a method of surgical instrument insertion are provided. In one embodiment, the assembly includes a cannula having a proximal portion that operably couples to an accessory clamp of a manipulator arm, and a distal tubular member coupled to the proximal portion, the tubular member having an opening for passage of at least one instrument shaft. The assembly also includes an entry guide tube rotatably coupled to the proximal portion of the cannula, the entry guide tube including a plurality of channels for passage of a plurality of instrument shafts, wherein the entry guide tube is rotatably driven relative to the proximal portion of the cannula by rotation of at least one instrument shaft about a longitudinal axis of the entry guide tube. | 03-28-2013 |
20130325031 | REDUNDANT AXIS AND DEGREE OF FREEDOM FOR HARDWARE-CONSTRAINED REMOTE CENTER ROBOTIC MANIPULATOR - A remote center manipulator for use in minimally invasive robotic surgery includes a base link held stationary relative to a patient, an instrument holder, and a linkage coupling the instrument holder to the base link. First and second links of the linkage are coupled to limit motion of the second link to rotation about a first axis intersecting a remote center of manipulation. A parallelogram linkage portion of the linkage pitches the instrument holder around a second axis that intersects the remote center of manipulation. The second axis is not coincident with the first axis. Third and fourth links of the linkage are coupled to limit motion of the fourth link to rotation about a third axis intersecting the remote center of manipulation. The third axis is not coincident with either of the first and second axes. Various combinations of hardware-constrained remote center of motion robotic manipulators with redundant mechanical degrees of freedom are disclosed. | 12-05-2013 |
20140076076 | GIMBAL AND LEVERS WITH EQUALIZER - A force transmission includes a gimbal plate having two degrees of freedom. Each of three lever arms is supported by a pivot between two ends of the lever arm. One end of each lever arm is coupled to the gimbal plate such that the three couplings are not collinear. An equalizer cable has two opposing ends, each end fixedly coupled to one of the lever arms. The equalizer cable is routed over a lever arm pulley pivotally coupled to another of the lever arms between the pivot and one end of the lever arm. The gimbal plate may be coupled to the three lever arms by flexible cables or by links that transmit compression forces but not tension forces. The cables may be substantially contained within a tube. The links may be electrically non-conductive. The force transmission may control a surgical end effector in a teleoperated surgical instrument. | 03-20-2014 |
20140076077 | LEVER ACTUATED OUTPUT GIMBALS - A force transmission transmits a force to a primary output gimbal plate and a secondary output gimbal plate. The secondary output gimbal plate supports the primary output gimbal plate. Each of three primary levers is supported by a primary pivot. Each primary lever is coupled to the primary output gimbal plate such that the three couplings are not collinear. Each of three secondary levers is supported by a secondary pivot. Each secondary lever is coupled to one of the primary levers by a force applying connector. Each secondary lever is coupled to the secondary output gimbal plate such that the three couplings are not collinear. The output gimbal plates may be coupled to the levers by flexible cables. The cables may be substantially contained within a tube. The output gimbal plates may be substantially smaller than the input gimbal plate. | 03-20-2014 |
20140206936 | SIDE LOOKING MINIMALLY INVASIVE SURGERY INSTRUMENT ASSEMBLY - Two surgical instruments are inserted through a guide tube. The surgical instruments exit at an intermediate position of the guide tube and are oriented to be substantially parallel to the guide tube's longitudinal axis as they exit. A stereoscopic image capture component is on the guide tube between the intermediate position and the guide tube's distal end. The image capture component's field of view is generally perpendicular to the guide tube's longitudinal axis. The surgical instruments and the guide tube are telemanipulatively controlled. | 07-24-2014 |
20140296872 | SURGICAL SYSTEM ENTRY GUIDE - An entry guide tube and cannula assembly, a surgical system including the assembly, and a method of surgical instrument insertion are provided. In one embodiment, the assembly includes a cannula having a proximal portion that operably couples to an accessory clamp of a manipulator arm, and a distal tubular member coupled to the proximal portion, the tubular member having an opening for passage of at least one instrument shaft. The assembly also includes an entry guide tube rotatably coupled to the proximal portion of the cannula, the entry guide tube including a plurality of channels for passage of a plurality of instrument shafts, wherein the entry guide tube is rotatably driven relative to the proximal portion of the cannula by rotation of at least one instrument shaft about a longitudinal axis of the entry guide tube. | 10-02-2014 |
20140326254 | SURGICAL SYSTEM STERILE DRAPE - A sterile drape, a surgical system with the drape, and a draping method are provided. In one embodiment, a sterile drape includes a plurality of drape pockets, each of the drape pockets including an exterior surface to be adjacent a sterile field for performing a surgical procedure and an interior surface to be adjacent a non-sterile instrument manipulator coupled to a manipulator arm of a robotic surgical system. The drape further includes a plurality of flexible membranes at a distal face of each of the drape pockets for interfacing between outputs of an instrument manipulator and inputs of a respective surgical instrument, and a rotatable seal adapted to couple a proximal opening of each of the drape pockets to a rotatable element at a distal end of the manipulator arm. | 11-06-2014 |