A stabilizing unit for a medical device includes a base member, a housing, a stabilizing fork, one or more springs, and a retaining arm. The housing has a lower housing portion and an upper housing portion connected to the lower housing portion. The lower housing portion is disposed in a laterally extending slot of the base member. The stabilizing fork is disposed in the upper housing portion. The one or more springs extend into the stabilizing fork. The retaining arm is slidably coupled to the upper housing portion. The retaining arm retains the stabilizing fork in the upper housing portion.

The invention relates to a stand device (1) for arranging in an operating room and for locally moving a medical device (20), comprising a braking device (50) having at least one brake (51) that is configured to adjust a degree of freedom of movement of the medical device (20) or a support system (10) holding the device, wherein the stand device (1) further comprises a control device (30) connected to the braking device (50) that is configured to evaluate an external force acting on the stand device (1) or a movement caused by the external force and configured to control the braking device (50) and to adjust the degree of freedom of movement. As a result, the medical device can be moved without operating a switch/pushbutton. Furthermore, the invention relates to a corresponding control device and a method for positioning the medical device.

The present invention provides a two-part robotic device for positioning of a hand tool, comprising: a. a fixed base unit constantly fix to its position; b. a detachable body unit reversibly coupled to said fixed base unit, coupled to said current medical instrument;
wherein said fixed base unit is adapted to provide independent movement to said hand tool, said independent movement selected from the group consisting of rotation and translation, and further wherein said detachable body unit is removable and replaceable from said fixed base unit such that upon exchange of said hand tool for a second hand tool, said second hand tool is placed in substantially the same location as the location of said hand tool prior to said exchange.

This operation input device is an operation input device for inputting an operating command to a manipulator for observing or treating an affected area. Provided is an operation input device including: a grip gripped by an operator with his/her hand; and an arm for movably supporting this grip, wherein this arm includes at least two link members, and at least one joint for linking a neighboring pair of the link members tiltably about joint axes intersecting the longitudinal axes thereof, and each of the joints includes: a sensor for detecting the relative angle displacement of each of the link members that are linked; and a friction generation section configured to generate a frictional torque in a direction opposite to the direction in which a torque is applied.

A robot arm and method for using the robot arm. Embodiments may be directed to an apparatus comprising: a robot arm; an end effector coupled at a distal end of the robot arm and configured to hold a surgical tool; a plurality of motors operable to move the robot arm; and an activation assembly operable to send a move signal allowing an operator to move the robot arm.

The systems and methods disclosed herein are directed to robotically controlling a medical device to utilize manual skills and techniques developed by surgeons. The system can include an emulator representing a medical device. The system can include at least one detector configured to track the emulator. The system can also include an imaging device configured to track the medical device. The system may be configured to move the medical device to reduce an alignment offset between the location of the emulator and the location of the medical device, to move the imaging device based on the translational movement of the emulator, and/or to move the medical device based on data indicative of an orientation of the emulator.

User-initiated break-away clutching includes a robotic system having a joint, a brake or drive unit coupled to the joint, and a control system coupled with the brake or drive unit. The control system is configured to determine a first manual effort applied to the joint; inhibit, using the brake or drive unit, manual articulation of the joint in response to the first manual effort being below an articulation threshold; facilitate, using the brake or drive unit, the manual articulation of the joint in response to the first manual effort exceeding the articulation threshold; and inhibit, using the brake or drive unit, further manual articulation of the joint in response to a determination that a speed of the manual articulation of the joint is below a speed threshold.

A computer-assisted medical device including a first joint set on an articulated arm, a second joint set on the articulated arm, and a control unit coupled to the first joint set and second joint set. The control unit determines a disturbance to the first joint set caused by a release of one or more brakes and compensates for the disturbance using the second joint set to reduce motion to a position of a point of interest. In some embodiments, the control unit compensates for the disturbance by determining an initial position for the point of interest with respect to a reference point, determining a predicted motion for the point of interest based on the disturbance to the first joint set, and sending a drive command to the second joint set to move the point of interest in a direction opposite to the predicted motion.

A support arm system (10) has at least one lockable articulated connection (16). A locking device (20) is associated with the articulated connection (16). The locking device (20) includes a passive drive (32) as well as an actuating device (36) associated with the locking device (20) with an active drive (38). The active drive (38) acts in the same plane as the passive drive (32).

A maxillofacial or cranial-facial surgical stabilizer comprising a head frame fully or partially surrounding the head of a patient at an angle running from ears to temple, and that is fixated to the skull of the patient by multiple screws and/or ear holders and screws. One or more flexible/locking arms are removably attached to the head frame for holding and positioning a plurality of interchangeable instruments or accessories. One flexible/locking arm is a medial/center arm accessorized with a dental arch mold. A method of using a head frame to position the pieces of bones during maxillofacial or cranio-facial surgery is also provided.