Abstract: A surgical robotic instrument comprising: a shaft; an end effector element; an articulation connecting the end effector element to the shaft, the articulation comprising: a first joint driveable by a first pair of driving elements, the first joint permitting the end effector element to rotate about a first axis transverse to a longitudinal axis of the shaft; a second joint driveable by a second pair of driving elements; a pulley arrangement around which the second pair of driving elements is constrained to move, the pulley arrangement comprising: a first set of pulleys rotatable about the first axis; and a second set of pulleys proximal to the first set of pulleys and comprising a first pulley rotatable about a second axis, and a second pulley rotatable about a third axis parallel to and offset from the second axis; and a clevis unit comprising two arms supporting the pulleys of the pulley arrangement, and a pulley guard extending from one of the arms for guarding one of the first and second pulleys.

Abstract: A robotic surgical instrument includes an articulation drivable by at least one driving element. Movement of an instrument interface element is transferred to the at least one driving element. A driving element securing member includes at least one tapered side wall and is configured to be coupled to the at least one driving element. A holding member includes an opening configured to receive a fixing member and at least one wall defining a recess having a shape complementary to the shape of the at least one tapered side wall. The fixing member is configured to be received in the opening and apply force to secure the driving element securing member within the recess of the holding member so that the at least one wall of the holding member is in frictional contact with the tapered side wall of the driving element securing member.

Abstract: A drape interface structure including a frame defining an opening, a membrane spanning the opening of the frame, and a drive transfer element attached to the membrane and adapted to convey motion through the membrane. The membrane is of a material that can deform to form a plastically deformed region in the membrane in response to an initial movement of the drive transfer element relative to the frame, such that subsequent movements of the drive transfer element in the membrane have reduced resistance from the membrane.

Abstract: A drape interface structure including a rigid frame defining an opening, a membrane spanning the opening of the frame, and a drive transfer element attached to the membrane and adapted to convey motion through the membrane. The membrane includes a first region of a first elastic deformability and a second region of a second elastic deformability different from the first elastic deformability.

Abstract: A motion feedthrough for a surgical drape, the motion feedthrough comprising a drive transfer element comprising a first portion and a second portion, the first portion being releasably engageable with a portion of a robot arm and the second portion being releasably engageable with a portion of an instrument, the drive transfer element being movable relative to a bulk portion of the drape so as to transfer drive between the robot arm and the instrument.

Abstract: A surgical robotic component comprising an articulated terminal portion, the terminal portion comprising: a distal segment having an attachment connected thereto, an intermediate segment, and a basal segment whereby the terminal portion is attached to the remainder of the surgical robotic component. The terminal portion further comprises a first articulation between the distal segment and the intermediate segment, the first articulation permitting relative rotation of the distal segment and the intermediate segment about a first axis, and a second articulation between the intermediate segment and the basal segment, the second articulation permitting relative rotation of the intermediate segment and the basal segment about a second axis.

Abstract: A robotic surgical arm including a receiver configured to receive wireless communications from a robotic surgical instrument attached to the robotic surgical arm and a shield including a plurality of fingers each having a common shape and a connector being in contact with each of the fingers. When the connector is electrically connected to ground, the shape, dimensions and arrangement of the fingers causes attenuation of the transmission of electric fields through the shield.

Abstract: An electrosurgical connection unit for a surgical robot arm to connect an electrosurgical instrument attached to the arm to an electrosurgical generator. The electrosurgical connection unit includes an input port connectable to the electrosurgical generator, the input port configured to receive a driving electrosurgical signal and output one or more activation signals; an output port connectable to the electrosurgical instrument, the output port configured to output the driving electrosurgical signal received on the input port; one or more activation switch units, wherein activation of an activation switch unit causes an activation signal to be output from the input port indicating a driving electrosurgical signal with a desired waveform is to be activated; and a control unit configured to selectively activate one of the one or more activation switch units in response to a control signal.

Abstract: A robotic surgical instrument comprising a shaft, an articulated section and a drive mechanism. The articulated section extends from the shaft and terminates at its distal end in a tip. The tip has an attachment for an end effector. The drive mechanism drives the articulated section via flexible driving elements thereby altering the angular orientation of the tip relative to the shaft. The drive mechanism is controlled so as to always fully compress the articulated section along at least one extent by which the articulated section connects the tip and the shaft whilst driving the articulated section from any one configuration to any other configuration. The drive mechanism constrains movement of the articulated section so as to permit the tip to move with two degrees of rotational freedom and no degrees of translational freedom relative to the shaft.

Abstract: An electrosurgical connection unit for a surgical robot arm to connect an electrosurgical instrument attached to the arm to an electrosurgical generator. The electrosurgical connection unit includes an input port connectable to the electrosurgical generator, the input port configured to receive a driving electrosurgical signal and output one or more activation signals; an output port connectable to the electrosurgical instrument, the output port configured to output the driving electrosurgical signal received on the input port; one or more activation switch units, wherein activation of an activation switch unit causes an activation signal to be output from the input port indicating a driving electrosurgical signal with a desired waveform is to be activated; and a control unit configured to selectively activate one of the one or more activation switch units in response to a control signal.

Abstract: A base for supporting a surgical robot includes a first planar member on which the surgical robot is mounted. A second planar member is pivotably coupled to the first planar member about a first axis. The first planar member and the second planar member are independently rotatable about the first axis so as to stabilise the base on an uneven floor surface.

Abstract: A surgical drape for covering at least a portion of a surgical robot arm, the arm comprising at least one drive assembly interface element for transferring drive between the arm and an instrument engageable with the arm, the drape comprising an interface portion locatable between the arm and the instrument when the instrument is engaged with the arm; and a bulk portion encompassing the interface portion; the interface portion and the bulk portion being adjacent one another, the interface portion comprising one or more of a material or configuration having a lower modulus than that of the bulk portion in at least one direction, and a movable portion, the movable portion being movable relative to the bulk portion, so as to permit repeatable movement of a portion of the interface portion relative to the bulk portion.

Abstract: A control system for controlling a surgical robot system, the surgical robot system comprising at least one surgical robot, each of the at least one surgical robot comprising a base, and an arm extending from the base to an attachment for an instrument, the arm comprising a plurality of joints whereby the configuration of the arm can be altered, the control system comprising: a main controller configured to: receive communications from one or more devices of an operator console identifying inputs from an operator of the at least one surgical robot; generate control signals for controlling the movement of the at least one surgical robot arm based on the inputs; and send communications to the at least one surgical robot identifying the control signals; and a safety monitor configured to analyse at least a portion of the communications to and/or from the main controller to determine whether the surgical robot system is in a fault state, and in response to determining that the surgical robot system is in a fault

Abstract: A robotic surgical instrument comprising: an end effector with opposing first and second end effector elements, each end effector element comprising a first portion for enabling rotation of that end effector element about a respective joint and a second portion with a surface configured to interface with a corresponding surface of the opposing end effector element; and an articulation comprising: a first joint permitting rotation of the first end effector element about a first axis; a second joint permitting rotation of the second end effector element about a second axis; and a supporting body comprising opposing first and second tines within which the first portions of the first and second end effector elements are permitted to rotate; wherein the first portion of the first end effector element is proximal to the first tine, and the second portion of the first end effector element is proximal to the second tine.

Abstract: A control system configured to control manipulation of a surgical instrument in response to manipulation of a remote surgeon input device, the surgical instrument comprising opposable first and second end effector elements connected to a shaft by an articulated coupling, the articulated coupling comprising a first joint driveable by a first pair of driving elements so as to permit the first end effector element to rotate, and a second joint driveable by a second pair of driving elements so as to permit the second end effector element to rotate, the control system configured to: detect a change of configuration of the surgeon input device to a gripping configuration at time t; respond to the change of configuration of the surgeon input device to the gripping configuration by commanding gripping forces to be applied to the first and second pairs of driving elements, so as to cause the first and second end effector elements to rotate in opposing rotational directions towards each other with a gripping closing fo

Abstract: A control system for a surgical robotic system, the surgical robotic system comprising a remote surgeon console and an articulated surgical robot arm comprising a series of joints extending from a base to a terminal end for attaching to an articulated surgical instrument. The control system comprises a central controller communicatively coupled to and remotely located from an arm controller of the surgical robot arm, the central controller also communicatively coupled to a surgeon input device of the surgeon console.

Abstract: A robotic surgical instrument comprising: a shaft; an end effector comprising a first end effector element with a first surface and a second end effector element with a second surface configured to interface with the first surface; and an articulation connecting the end effector to the shaft, the articulation permitting the first end effector element to rotate about a first axis and the second end effector element to rotate about a second axis, the first and second axes being transverse to the longitudinal axis of the shaft; wherein, when the end effector is aligned with the shaft and the first and second surfaces are interfaced, the orientation of the first surface, relative to the first axis, is greater than zero degrees.

Abstract: A user interface device for controlling a robot manipulator having an end effector comprising at least one movable element, the user interface device comprising: a body for being held by a user, the body comprising an elongate grip portion configured to be gripped by one or more of a user's second to fourth fingers; a trigger extending transversely to the direction of elongation of the grip portion, the trigger being supported by the body so as to be capable of rotating relative to the body about a rotation axis passing through the grip portion; and a drive mechanism at least partially housed in the grip portion, the drive mechanism being coupled to the trigger for applying a torque to the trigger.

Abstract: A control system configured to control manipulation of a surgical instrument in response to manipulation of a remote surgeon input device. The surgical instrument comprises opposable first and second end effector elements connected to a shaft by an articulated coupling. The articulated coupling comprises a first joint driveable by a first pair of driving elements so as to permit the first end effector element to rotate, and a second joint driveable by a second pair of driving elements so as to permit the second end effector element to rotate.