Patent application number | Description | Published |
20080314181 | Robotic Manipulator with Remote Center of Motion and Compact Drive - A robotic manipulator device includes a robotic linkage to rotate an insertion axis about a remote center of motion with two degrees of freedom. A driven link supports the insertion axis. Rigid links in a parallelogram arrangement constrain the driven link to move in parallel to a drive link and the insertion axis to rotate about the remote center of motion. A drive unit has an output shaft coupled to the drive link. Rotation of an input shaft causes the output shaft to rotate. The input and output shafts are at a substantial angle. A housing supports the output shaft. A first motor causes the input shaft to rotate the output shaft. A second motor causes the housing to rotate, rotating the output shaft about an axis that is substantially parallel to the input shaft and passes through the remote center of motion. | 12-25-2008 |
20090199674 | STEERING SYSTEM WITH PARALLELOGRAM LINKAGE FOR HEAVY MOBILE MEDICAL EQUIPMENT - In one embodiment of the invention, a steering system for mobile medical equipment includes left and right steerable wheel assemblies respectively with left and right steerable wheels. A left parallelogram linkage couples to the left steerable wheel assembly to transfer a left wheel angle to the left steerable wheel assembly. A right parallelogram linkage couples to the right steerable wheel assembly to transfer a right wheel angle to the right steerable wheel assembly. A steering function generator couples to the left parallelogram linkage and the right parallelogram linkage. The steering function generator generates the left wheel angle of the left steerable wheel and the right wheel angle of the right steerable wheel. A steering tiller couples to the steering function generator and receives an input steering angle from an operator to generate the left and right wheel angles to control the direction of the mobile medical equipment around flooring. | 08-13-2009 |
20090200092 | METHODS OF STEERING HEAVY MOBILE MEDICAL EQUIPMENT - Methods for steering mobile medical equipment are disclosed. In one embodiment, the method includes supporting medical equipment with a base above a floor over which a left steerable wheel, a right steerable wheel, and a pair of front wheels roll; receiving an input steering angle other than zero; linearly sweeping a long link in response to the input steering angle, pivoting a pair of short links in response to the linearly sweeping of the long link; pivoting a pair of cam plates in response to the pivoting of the pair of short links; transferring the pivoting of one of the pair of cam plates to a left wheel assembly to position the left steerable wheel at a left wheel angle; and transferring the pivoting of another one of the pair of cam plates to a right wheel assembly to position the right steerable wheel at a right wheel angle. | 08-13-2009 |
20100163057 | STERILE SURGICAL ADAPTOR - A sterile adaptor, a sterile drape with the integrated sterile adaptor, and a telerobotic surgical system including the sterile drape with a drape interface are provided. The adaptor, drape, and system allow for draping portions of a telerobotic surgical system to maintain a sterile barrier between the sterile surgical field and the non-sterile robotic system while also providing an interface for transferring mechanical and electrical energy and signals between a robotic arm and a surgical instrument in the sterile field. | 07-01-2010 |
20100174293 | STERILE SURGICAL ADAPTOR - A sterile drape with integrated sterile adaptor, a telerobotic surgical system, and method of use are provided for draping portions of a telerobotic surgical system to maintain a sterile barrier between the sterile surgical field and the non-sterile robotic system while also providing an interface for transferring mechanical and electrical energy and signals. | 07-08-2010 |
20110218551 | INSTRUMENT INTERFACE OF A ROBOTIC SURGICAL SYSTEM - An instrument interface of a robotic manipulator and a surgical system including the instrument interface are provided. In one embodiment, the instrument interface includes a spring-loaded input for providing axial load and torque to a sterile adaptor capable of operably coupling an instrument. In another embodiment, a robotic surgical manipulator system includes a manipulator assembly, including a base link operably coupled to a distal end of a manipulator arm, and a carriage link movably coupled to the base link along a lengthwise axis, the carriage link including an integrated instrument interface. The system further includes an instrument operably coupled to the carriage link via the instrument interface, and a processor operably coupled to the manipulator assembly for sensing presence of the instrument. | 09-08-2011 |
20110313428 | Bracing of Bundled Medical Devices for Single Port Entry, Robotically Assisted Medical Procedures - Medical devices robotically manipulated by a medical robotic system for performing a medical procedure on a patient are bundled together as a bundled unit and inserted into the patient through a single entry port. Bracing of the bundled unit at the surgical site so as to be constrained in one or more degrees of freedom of movement may be performed using an anchor secured to an anatomic structure at the surgical site and physically coupled to the bundled unit, or using a tool extending out of a distal end of the bundled unit that extends out to an anatomic structure at the surgical site. | 12-22-2011 |
20120209291 | Surgical Accessory Clamp and System - A surgical accessory clamp, method of use, and a robotic surgical system including the clamp are disclosed. A surgical accessory may be attached and removed from a manipulator arm during a surgical procedure without requiring the use of an intermediate sterile accessory clamp, thus removing the need for a detachable accessory mount or adaptor that needs cleaning and sterilization and allowing for greater efficiency and cost-effectiveness. The present invention further allows for easy removal and attachment of instruments, tools, or accessories to the robotic surgical system without breach of sterility. | 08-16-2012 |
20120209292 | Telescoping Insertion Axis of a Robotic Surgical System - A telescopic insertion axis, a robotic surgical system including the telescopic insertion axis, and a method of instrument insertion are provided. In one embodiment, a telescopic insertion axis includes a base link operably coupled to a distal end of a manipulator arm, and a carriage link movably coupled to the base link along a lengthwise axis, the carriage link including an instrument interface. | 08-16-2012 |
20120217457 | COMPACT CAPSTAN - A compact capstan includes a drum, a coupled hub, a passage extending through the drum and hub, and a shaft extending through the drum and hub. The shaft engages the passage such that the shaft can transmit a torsional force to the drum and the hub which are free to move along the length of the shaft. The drum includes a spiral groove to receive a cable loop wound around the drum. The hub has a thread with substantially the same pitch as the spiral groove to engage a threaded support such that the hub and the drum move laterally along their length relative to the threaded support as the hub and the drum are rotated. The shaft has a length that is substantially greater than the passage such that the shaft extends beyond both ends of the passage. | 08-30-2012 |
20130178870 | ROBOTIC SURGICAL SYSTEM WITH PATIENT SUPPORT - A robotic surgery system for supporting a patient and a robotic surgical manipulator. The robotic surgery system includes a base, a pillar coupled to the base at a first end and extending vertically upwardly to an opposing second end, and an attachment structure coupled to the second end of the pillar. A patient table is coupled to the attachment structure. A robot support arm has a first end coupled to the attachment structure. The robot support arm extends vertically upwardly from the first end to a second end. The robot support arm may further extend horizontally over the patient table to support a robotic surgical manipulator that will extend generally downward from the robot support arm toward a patient supported by the patient table to place an end effector of the robotic surgical manipulator adjacent a desired surgical site on the patient. | 07-11-2013 |
20140163581 | Telescoping Insertion Axis of a Robotic Surgical System - A telescopic insertion axis, a robotic surgical system including the telescopic insertion axis, and a method of instrument insertion are provided. In one embodiment, a telescopic insertion axis includes a base link operably coupled to a distal end of a manipulator arm, and a carriage link movably coupled to the base link along a lengthwise axis, the carriage link including an instrument interface | 06-12-2014 |
Patent application number | Description | Published |
20080303789 | Method and Apparatus for Compensating for Position Slip in Interface Devices - Method and apparatus for compensating for position slip in interface devices that may occur between a manipulandum and a sensor of the device due to a mechanical transmission. A device position delta is determined from a sensed position of a manipulandum of an interface device. It is determined if position slip has occurred caused by a change in position of the manipulandum that was not sensed by a sensor of the interface device, typically caused by a mechanical transmission between sensor and manipulandum. If position slip has occurred, an error in the sensed position caused by the position slip is corrected by adjusting the sensed position to take into account the position slip. The adjusted position delta is used as the position of the manipulandum and the display of objects controlled by the interface device are accordingly compensated. | 12-11-2008 |
20090033624 | SAFE AND LOW COST COMPUTER PERIPHERALS WITH FORCE FEEDBACK FOR CONSUMER APPLICATIONS - Power management for an interface device that is manipulated by a user and in communication with a host computer and provides forces to the user. The device includes a sensor and an actuator. One embodiment provides first power from the host computer over a serial interface and second power from a power adapter. Another embodiment provides first power from the host computer and second power from a power storage device on the interface device that supplies power to the actuator. Another embodiment provides a power adapter supplying a portion of the first power to the sensor and a portion to the actuator, and a power storage device on the interface device provides second power to the actuator. | 02-05-2009 |
20090079712 | Control Knob With Multiple Degrees of Freedom and Force Feedback - The present invention provides a control knob on a device that allows a user to control functions of the device. In one embodiment, the knob is rotatable in a rotary degree of freedom and moveable in at least one transverse direction approximately perpendicular to the axis. An actuator is coupled to the knob to output a force in the rotary degree of freedom about the axis, thus providing force feedback. In a different embodiment, the knob is provided with force feedback in a rotary degree of freedom about an axis and is also moveable in a linear degree of freedom approximately parallel to the axis, allowing the knob to be pushed and/or pulled by the user. The device controlled by the knob can be a variety of types of devices, such as an audio device, video device, etc. The device can also include a display providing an image updated in response to manipulation of the knob. Detent forces can be provided for the knob by overlapping and adjusting ranges of closely-spaced detents in the rotary degree of freedom of the knob. | 03-26-2009 |
20090184923 | Haptic Stylus Utilizing An Electroactive Polymer - Haptic feedback interface devices using electroactive polymer (EAP) actuators to provide haptic sensations. A haptic feedback interface device is in communication with a host computer and includes a sensor device that detects the manipulation of the interface device by the user and an electroactive polymer actuator responsive to input signals and operative to output a force to the user caused by motion of the actuator. The output force provides a haptic sensation to the user. In an embodiment, a stylus including a body having a first end and a second end opposite from the first end, a moveable member coupled to the body and capable of being in contact with a user's hand; and an electro active polymer actuator coupled to the moveable member, wherein the electroactive polymer moves the moveable member from a first position to a second position with respect to the body upon being activated. | 07-23-2009 |
20090295552 | Vibrotactile Haptic Feedback Devices - Vibrotactile haptic feedback devices are disclosed. For example, in one embodiment, a device includes: a mass, an actuator configured to vibrate the mass, and a coupling disposed between the actuator and the mass or between the mass and a housing, the coupling having a first configuration with a compliance and a second configuration with a compliance, the compliance of the coupling in the first configuration being different from the compliance of the coupling in the second configuration, the actuator being configured to output haptic feedback associated with the first configuration of the coupling and haptic feedback associated with the second configuration of the coupling, the haptic feedback associated with the first configuration of the coupling being different from the haptic feedback associated with the second configuration of the coupling. | 12-03-2009 |
20100219388 | Compact Cable Tension Tender Device - A compact cable tension tender device includes first and second pulleys rotatably coupled to a drive shaft. First and second plates are fixed to the drive shaft. Drive stops on the plates engage and rotate the pulleys when the drive shaft is rotated. A resilient coupler urges the first and second pulleys to rotate away from engagement with the drive stops. Cables are coupled to the pulleys and adjusted to be in tension such that the first and second pulleys both engage the drive stops at the same time. The engagement of both pulleys with the drive stops at the same time minimizes lost motion when reversing the rotation of the drive shaft. | 09-02-2010 |
20100288072 | Control wheel with haptic feedback - A control wheel for controlling at least one function of a system by a user includes a moveable engagement wheel for engagement by the user and an actuator coupled to the engagement wheel for providing force or haptic feedback to the engagement wheel in response to movement of the engagement wheel. A sensor for sensing movement of the engagement wheel is provided and a control system is coupled to the sensor for receiving information about positioning and movement of the engagement wheel, and is also coupled to the actuator for controlling force to the engagement wheel. The control system also provides control of the at least one function of the system. | 11-18-2010 |
20110264108 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264109 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264110 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264111 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110270271 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 11-03-2011 |
20110276059 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 11-10-2011 |
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 |
20120184968 | ROBOTIC ARM WITH FIVE-BAR SPHERICAL LINKAGE - A robotic arm for a minimally invasive surgical system includes a parallel spherical five-bar linkage adapted to spherically rotationally move a robotic surgical tool coupled to the parallel five-bar spherical linkage about a remote center of spherical rotation. The five-bar spherical linkage is posed in only a range of compact poses. A compact pose is one in which a first pair of links and a second pair of links in the parallel five-bar spherical linkage have only a same handedness. | 07-19-2012 |
20120203271 | GUIDE TUBE CONTROL OF MINIMALLY INVASIVE SURGICAL INSTRUMENT - A telemanipulatively controlled guide tube acts as a wrist mechanism for a surgical instrument that extends through the guide tube. The instrument may be removed and replaced with another instrument. In some aspects the instruments are commercial, off the shelf minimally invasive surgical instruments. | 08-09-2012 |
20120235942 | HAPTIC INTERFACE FOR TOUCH SCREEN EMBODIMENTS - A haptic feedback touch control used to provide input to a computer. A touch input device includes a planar touch surface that provides position information to a computer based on a location of user contact. The computer can position a cursor in a displayed graphical environment based at least in part on the position information, or perform a different function. At least one actuator is also coupled to the touch input device and outputs a force to provide a haptic sensation to the user. The actuator can move the touchpad laterally, or a separate surface member can be actuated. A flat E-core actuator, piezoelectric actuator, or other types of actuators can be used to provide forces. The touch input device can include multiple different regions to control different computer functions. | 09-20-2012 |
20130038431 | Control Wheel With Haptic Feedback - A control wheel for controlling at least one function of a system by a user includes a moveable engagement wheel for engagement by the user and an actuator coupled to the engagement wheel for providing force or haptic feedback to the engagement wheel in response to movement of the engagement wheel. A sensor for sensing movement of the engagement wheel is provided and a control system is coupled to the sensor for receiving information about positioning and movement of the engagement wheel, and is also coupled to the actuator for controlling force to the engagement wheel. The control system also provides control of the at least one function of the system. | 02-14-2013 |
20130110129 | Surgical Instrument Motor Pack Latch | 05-02-2013 |
20130197541 | EXTENDABLE SUCTION SURFACE FOR BRACING MEDICAL DEVICES DURING ROBOTICALLY ASSISTED MEDICAL PROCEDURES - Medical devices robotically manipulated by a medical robotic system for performing a medical procedure on a patient are bundled together as a bundled unit and inserted into the patient through a single entry port. Bracing of the bundled unit at a surgical site is performed by extending a suction surface disposed at a distal end of the bundled unit towards a bracing surface at the surgical site and applying a suction force between the suction surface and the bracing surface. The suction surface is ring-shaped with holes distributed about the ring so that controllably extendable and retractable tubes coupled at distal ends to the holes provide suction to the suction surface when coupled at proximal ends to a vacuum source. | 08-01-2013 |
20130226197 | CONTROL SYSTEM CONFIGURED TO COMPENSATE FOR NON-IDEAL ACTUATOR-TO-JOINT LINKAGE CHARACTERISTICS IN A MEDICAL ROBOTIC SYSTEM - A medical robotic system having non-ideal actuator-to-joint linkage characteristics, includes a control system including a proximal control loop with actuator sensor feedback to control dynamic response of an actuator coupled to a distal joint which in turn, is coupled to an end effector to provide a degree of freedom movement of the end effector, a distal control loop with distal joint sensor feedback and feedforward to the actuator to ensure steady-state convergence of the distal joint position, and an end effector control loop with end-point sensor feedback to control the end effector position to reach a commanded end effector position. | 08-29-2013 |
20130255425 | ROBOTIC ARM WITH FIVE-BAR SPHERICAL LINKAGE - A robotic arm for a minimally invasive surgical system includes a parallel spherical five-bar linkage adapted to spherically rotationally move a robotic surgical tool coupled to the parallel five-bar spherical linkage about a remote center of spherical rotation. The five-bar spherical linkage is posed in only a range of compact poses. A constraint limits the parallel five-bar spherical linkage to only the range of compact poses. | 10-03-2013 |
20130338434 | CENTER ROBOTIC ARM WITH FIVE-BAR SPHERICAL LINKAGE FOR ENDOSCOPIC CAMERA - A robotic arm including a parallel spherical five-bar linkage with a remote center of spherical rotation. The robotic arm movably supports an endoscopic camera. Two outboard links are pivotally coupled together. At least one of the two outboard links supports the endoscopic camera. Two inboard links are respectively pivotally coupled to the two outboard links such that the two inboard links are able to cross over one another. The two inboard links moveably support the two outboard links. A ground link is pivotally coupled to the two inboard links. The ground link moveably supports the two inboard links. | 12-19-2013 |
20140002251 | CONTROL WHEEL WITH HAPTIC FEEDBACK | 01-02-2014 |
20140128885 | SYSTEMS AND METHODS FOR MAPPING FLUX SUPPLY PATHS - A method of supplying flux may include receiving first data at a control system identifying which of a plurality of remotely-controllable kinematic flux delivery structures is operationally coupled to which of a plurality of flux supply pathways and receiving second data at the control system identifying which of the remotely-controllable kinematic flux delivery structures is operationally coupled to which of a plurality of kinematic support structures. A system for supplying flux may include a plurality of flux supply pathways, a plurality of remotely-controllable kinematic flux delivery structures, and a control system receiving first data identifying which of the remotely-controllable kinematic flux delivery structures is operationally coupled to which of the flux supply pathways and receiving second data identifying which of the remotely-controllable kinematic flux delivery structures is operationally coupled to which of a plurality of kinematic support structures. | 05-08-2014 |
20140180272 | FLUX TRANSMISSION CONNECTORS, SYSTEMS, AND METHODS - A surgical flux transmission conduit for operationally coupling a surgical flux supply pathway with a surgical flux delivery instrument may include a data signal transmission pathway, a surgical flux transmission pathway, and a connector interface. The connector interface can include a data signal transmission connector feature in communication with the data signal transmission pathway, and a surgical flux transmission connector feature in communication with the surgical flux transmission pathway. A surgical flux delivery instrument may include an electronic circuit encoded with identification data corresponding to the instrument and a connector interface configured to mate with the connector interface of the conduit. A surgical flux supply source may include a connector interface including a data signal transmission connector to receive a data signal from the instrument and a surgical flux transmission connector feature. | 06-26-2014 |
20140276950 | Inter-Operative Switching of Tools in a Robotic Surgical System - Methods, apparatus, and systems for controlling a telesurgical system are disclosed. In accordance with a method, a first tool connected to a first manipulator of the system, and a second tool connected to a second manipulator of the system, are controlled. A swap of the tools such that the first tool is connected to the second manipulator and the second tool is connected to the first manipulator is then detected. The first tool connected to the second manipulator and the second tool connected to the first manipulator are then controlled. | 09-18-2014 |
20150051733 | SOFTWARE CENTER AND HIGHLY CONFIGURABLE ROBOTIC SYSTEMS FOR SURGERY AND OTHER USES - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 02-19-2015 |
20150057677 | CONTROL SYSTEM CONFIGURED TO COMPENSATE FOR NON-IDEAL ACTUATOR-TO-JOINT LINKAGE CHARACTERISTICS IN A MEDICAL ROBOTIC SYSTEM - A medical robotic system having non-ideal actuator-to-joint linkage characteristics, includes a control system including a proximal control loop with actuator sensor feedback to control dynamic response of an actuator coupled to a distal joint which in turn, is coupled to an end effector to provide a degree of freedom movement of the end effector, a distal control loop with distal joint sensor feedback and feedforward to the actuator to ensure steady-state convergence of the distal joint position, and an end effector control loop with end-point sensor feedback to control the end effector position to reach a commanded end effector position. | 02-26-2015 |
Patent application number | Description | Published |
20090084216 | Multiaxis Counterbalance and Positioning System Using a Spatial Linkage - A spatial linkage including an inboard gimbal plate that provides a ground for the spatial linkage, an outboard gimbal plate, and three links that couple the outboard gimbal plate to the inboard gimbal plate. Each link has a longitudinal axis and two pivotal couplings disposed at opposite ends of the longitudinal axis. Each link is pivotally coupled to the outboard gimbal plate at a first end of the longitudinal axis and pivotally coupled to the inboard gimbal plate at a second end of the longitudinal axis opposite the first end. The pivotal couplings allow the outboard gimbal plate to move relative to the inboard gimbal plate and preventing relative rotation between the outboard gimbal plate and the inboard gimbal plate. | 04-02-2009 |
20100116082 | Multiaxis Counterbalance and Positioning System Using a Spatial Linkage - A spatial linkage including an inboard gimbal plate that provides a ground for the spatial linkage, an outboard gimbal plate, and at least three links that couple the outboard gimbal plate to the inboard gimbal plate. Each link has a longitudinal axis and two pivotal couplings disposed at opposite ends of the longitudinal axis. Each link is pivotally coupled to the outboard gimbal plate at a first end of the longitudinal axis and pivotally coupled to the inboard gimbal plate at a second end of the longitudinal axis opposite the first end. The pivotal couplings allow the outboard gimbal plate to move relative to the inboard gimbal plate and preventing relative rotation between the outboard gimbal plate and the inboard gimbal plate. Counterweight is coupled to at least one of the links on the opposite side of the inboard gimbal plate from the outboard gimbal plate. | 05-13-2010 |
20110118754 | MOTOR INTERFACE FOR PARALLEL DRIVE SHAFTS WITHIN AN INDEPENDENTLY ROTATING MEMBER - Mechanisms, assemblies, systems, tools, and methods incorporating the use of an offset drive shaft within an independently rotating member are provided. An example mechanism includes a base and a main shaft mounted to rotate relative to the base, a first drive shaft mounted inside the main shaft, and a first drive feature engaged with the first drive shaft. The main shaft includes a proximal end, a distal end, and a main shaft rotational axis defined therebetween. The first drive shaft is offset from the main shaft rotational axis. A first drive feature rotational axis is defined for the first drive feature and is fixed relative to the base as the main shaft rotates. The first drive feature rotates the first drive shaft. | 05-19-2011 |
20130209208 | COMPACT NEEDLE MANIPULATOR FOR TARGETED INTERVENTIONS - Embodiments of an instrument manipulator are disclosed. An instrument manipulator can include a track; a translational carriage coupled to ride along the track; a shoulder yaw joint coupled to the translational carriage; a shoulder pitch joint coupled to the shoulder yaw joint, the shoulder pith joint including an arm, a wrist mount coupled to the arm, struts coupled between the wrist mount and the shoulder yaw joint, and a shoulder pitch mechanism coupled to the arm; a yaw-pitch-roll wrist coupled to the wrist mount, the yaw-pitch-roll wrist including a yaw joint and a differentially driven pitch-roll joint; and an instrument mount coupled to the wrist. The various joints and carriages can be driven by motors. | 08-15-2013 |
20130211423 | LOW FRICTION CANNULA SEALS FOR MINIMALLY INVASIVE ROBOTIC SURGERY - Embodiments of a cannula seal are disclosed. In some embodiments, a cannula seal can include a base portion that engages with a cannula; and a seal portion integrally formed with the base portion that slidebly engages with an instrument shaft such that an insertion frictional force between the seal portion and the instrument shaft for insertion of the instrument shaft is symmetrical and substantially equal with a retraction frictional force. | 08-15-2013 |
20130325029 | MANIPULATOR ARM-TO-PATIENT COLLISION AVOIDANCE USING A NULL-SPACE - Devices, systems, and methods for avoiding collisions between a manipulator arm and an outer patient surface by moving the manipulator within a null-space. In response to a determination that distance between an avoidance geometry and obstacle surface, corresponding to a manipulator-to-patient distance is less than desired, the system calculates movement of one or more joints or links of the manipulator within a null-space of the Jacobian to increase this distance. The joints are driven according to the reconfiguration command and calculated movement so as to maintain a desired state of the end effector. In one aspect, the joints are also driven according to a calculated end effector displacing movement within a null-perpendicular-space of the Jacobian to effect a desired movement of the end effector or remote center while concurrently avoiding arm-to-patient collisions by moving the joints within the null-space. | 12-05-2013 |
20130325030 | SYSTEMS AND METHODS FOR AVOIDING COLLISIONS BETWEEN MANIPULATOR ARMS USING A NULL-SPACE - Devices, systems, and methods for avoiding collisions between manipulator arms using a null-space are provided. In one aspect, the system calculates an avoidance movement using a relationship between reference geometries of the multiple manipulators to maintain separation between reference geometries. In certain embodiments, the system determines a relative state between adjacent reference geometries, determines an avoidance vector between reference geometries, and calculates an avoidance movement of one or more manipulators within a null-space of the Jacobian based on the relative state and avoidance vector. The joints may be driven according to the calculated avoidance movement while maintaining a desired state of the end effector or a remote center location about which an instrument shaft pivots and may be concurrently driven according to an end effector displacing movement within a null-perpendicular-space of the Jacobian so as to effect a desired movement of the end effector or remote center. | 12-05-2013 |
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 |
20130325032 | SURGICAL INSTRUMENT MANIPULATOR ASPECTS - 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 angularly offset from the first axis by a non-zero angle other than 90 degrees. | 12-05-2013 |
20130325033 | MULTI-PORT SURGICAL ROBOTIC SYSTEM ARCHITECTURE - A robotic surgery system includes an orienting platform, a support linkage movably supporting the orienting platform, a plurality of surgical instrument manipulators, and a plurality of set-up linkages. Each of the manipulators includes an instrument holder and is operable to rotate the instrument holder around a remote center of manipulation (RC). At least one of the manipulators includes a reorientation mechanism that when actuated moves the attached manipulator through a motion that maintains the associated RC in a fixed position. | 12-05-2013 |
20130325034 | INSTRUMENT CARRIAGE ASSEMBLY FOR SURGICAL SYSTEM - A robotic assembly is configured to support, insert, retract, and actuate a surgical instrument mounted to the robotic assembly. The robotic assembly includes an instrument holder base member, a motor housing moveably mounted to the instrument holder base member, a carriage drive mechanism operable to translate the motor housing along the instrument holder base member, a plurality of drive motors, and a plurality of output drive couplings driven by the drive motors. One or more of the drive motors includes one or more magnetic flux shields to inhibit magnetic interference with an adjacent drive motor and/or with an adjacent motor orientation sensor. | 12-05-2013 |
20130331858 | INSTRUMENT INTERFACE OF A ROBOTIC SURGICAL SYSTEM - An instrument interface of a robotic manipulator and a surgical system including the instrument interface are provided. In one embodiment, the instrument interface includes a spring-loaded input for providing axial load and torque to a sterile adaptor capable of operably coupling an instrument. In another embodiment, a robotic surgical manipulator system includes a manipulator assembly, including a base link operably coupled to a distal end of a manipulator arm, and a carriage link movably coupled to the base link along a lengthwise axis, the carriage link including an integrated instrument interface. The system further includes an instrument operably coupled to the carriage link via the instrument interface, and a processor operably coupled to the manipulator assembly for sensing presence of the instrument. | 12-12-2013 |
20140194894 | Motor Interface for Parallel Drive Shafts Within an Independently Rotating Member - Mechanisms, assemblies, systems, tools, and methods incorporating the use of an offset drive shaft within an independently rotating member are provided. An example mechanism includes a base and a main shaft mounted to rotate relative to the base, a first drive shaft mounted inside the main shaft, and a first drive feature engaged with the first drive shaft. The main shaft includes a proximal end, a distal end, and a main shaft rotational axis defined therebetween. The first drive shaft is offset from the main shaft rotational axis. A first drive feature rotational axis is defined for the first drive feature and is fixed relative to the base as the main shaft rotates. The first drive feature rotates the first drive shaft. | 07-10-2014 |
20140343570 | SURGICAL PATIENT SIDE CART WITH SUSPENSION SYSTEM - A patient side cart for a teleoperated surgical system comprises a base, a manipulator portion extending from the base and configured to hold one or more surgical instruments, four wheels mounted to the base to permit movement of the cart, and a suspension system. The suspension system may be configured to transition the cart between a first state in which the cart behaves as a three-wheeled cart and a second state in which the cart behaves as a four-wheeled cart. | 11-20-2014 |
20140358161 | SYSTEMS AND METHODS FOR COMMANDED RECONFIGURATION OF A SURGICAL MANIPULATOR USING THE NULL-SPACE - Devices, systems, and methods for reconfiguring a surgical manipulator by moving the manipulator within a null-space of a kinematic Jacobian of the manipulator arm. In one aspect, in response to receiving a reconfiguration command, the system drives a first set of joints and calculates velocities of the plurality of joints to be within a null-space. The joints are driven according to the reconfiguration command and the calculated movement so as to maintain a desired state of the end effector or a remote center about which an instrument shaft pivots. In another aspect, the joints are also driven according to a calculated end effector or remote center displacing velocities within a null-perpendicular-space of the Jacobian so as to effect the desired reconfiguration concurrently with a desired movement of the end effector or remote center. | 12-04-2014 |
20150032126 | SOFTWARE CENTER AND HIGHLY CONFIGURABLE ROBOTIC SYSTEMS FOR SURGERY AND OTHER USES - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 01-29-2015 |