WO2011002215A2 - Hybrid surgical robot system and method for controlling a surgical robot - Google Patents

Hybrid surgical robot system and method for controlling a surgical robot Download PDF

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Publication number
WO2011002215A2
WO2011002215A2 PCT/KR2010/004229 KR2010004229W WO2011002215A2 WO 2011002215 A2 WO2011002215 A2 WO 2011002215A2 KR 2010004229 W KR2010004229 W KR 2010004229W WO 2011002215 A2 WO2011002215 A2 WO 2011002215A2
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WO
WIPO (PCT)
Prior art keywords
instrument
handle
robot
robot arm
driving force
Prior art date
Application number
PCT/KR2010/004229
Other languages
French (fr)
Korean (ko)
Other versions
WO2011002215A3 (en
Inventor
최승욱
원종석
이민규
Original Assignee
주식회사 이턴
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 주식회사 이턴 filed Critical 주식회사 이턴
Priority to CN201080030140.3A priority Critical patent/CN102469995B/en
Publication of WO2011002215A2 publication Critical patent/WO2011002215A2/en
Publication of WO2011002215A3 publication Critical patent/WO2011002215A3/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/28Surgical forceps
    • A61B17/29Forceps for use in minimally invasive surgery
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B34/00Computer-aided surgery; Manipulators or robots specially adapted for use in surgery
    • A61B34/30Surgical robots
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
    • B25J13/00Controls for manipulators
    • B25J13/02Hand grip control means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
    • B25J9/00Programme-controlled manipulators
    • B25J9/16Programme controls
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
    • B25J9/00Programme-controlled manipulators
    • B25J9/16Programme controls
    • B25J9/1628Programme controls characterised by the control loop
    • B25J9/1633Programme controls characterised by the control loop compliant, force, torque control, e.g. combined with position control
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B2017/0046Surgical instruments, devices or methods, e.g. tourniquets with a releasable handle; with handle and operating part separable
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B2017/00477Coupling
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/30Nc systems
    • G05B2219/45Nc applications
    • G05B2219/45117Medical, radio surgery manipulator

Definitions

  • the present invention relates to a hybrid surgical robot system and a surgical robot control method.
  • surgery refers to healing a disease by cutting, slitting, or manipulating skin, mucous membranes, or other tissues with a medical device.
  • open surgery which incise the skin of the surgical site and open, treat, shape, or remove the organs inside of the surgical site, has recently been performed using robots due to problems such as bleeding, side effects, patient pain, and scars. This alternative is in the spotlight.
  • Such a surgical robot is provided with a robot arm for operation for surgery, the instrument is mounted on the front end of the robot arm, the instrument performs the operation required for surgery by the driving force generated and transmitted from the robot .
  • the conventional robot surgery has a problem that a human manual surgery is required while driving the surgical robot, and in most cases, the entire operation of the operation cannot be performed only by the robot from the beginning to the end.
  • a limit That is, in the conventional robotic surgery, a method of manually performing some surgical procedures using a surgical instrument, driving the surgical robot to perform a robotic operation, and then manually performing the remaining surgical procedures using the surgical instrument again. Has been progressed.
  • the surgical instruments to be manually operated and the surgical instruments (instruments) mounted on the surgical robot are not compatible with each other, the surgical instruments are manually operated using the surgical instruments, and then used to perform the robot surgery. After removing all the surgical instruments, attach the instrument to the surgical robot to perform the robot operation, and if manual surgery is needed, remove all the instruments again, and then manually perform the operation using the surgical instruments. There was a feeling.
  • the background art described above is technical information possessed by the inventors for the derivation of the present invention or acquired during the derivation process of the present invention, and is not necessarily a publicly known technique disclosed to the general public before the application of the present invention.
  • the present invention the human and the robot can perform the operation as needed, if the emergency situation occurs in the robot surgery process, the person can perform the operation manually, accordingly, also applied to remote surgery or surgery education It is to provide a hybrid surgical robot system and a surgical robot control method that can be.
  • the instrument mounted on the robot arm (arm) provided in the surgical robot
  • the instrument is coupled to a manual operation handle (handle), the instrument by a user operation on the handle
  • a hybrid surgical instrument is provided, which performs an operation necessary for surgery.
  • the hybrid surgical instrument is mounted to the front end of the robot arm, a shaft that receives a driving force from the robot arm and is operated by a driving force, coupled to the driving unit, and receives power transmission means connected to the driving unit therein;
  • An effector coupled to the distal end of the shaft, the effector being coupled to the power transmission means and actuated by a driving force transmitted from any one or more of the robot arm and the handle, the handle being coupled to the drive and powered by a user operation.
  • Driving force can be applied to the means.
  • An actuator is formed at the front end of the robot arm, and a driver is installed in the driver, and the power transmission means includes a wire coupled to the driver, and the handle is connected to the driver by a user operation. It can transmit the driving force.
  • the handle can be manipulated with degrees of freedom corresponding to the degree of freedom of operation of the effector.
  • the surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
  • the first drive unit is mounted to the front end of the robot arm provided in the surgical robot, and is operated by receiving a driving force from the robot arm, coupled to the first drive unit and the first drive unit therein
  • the second drive unit is mounted to the first drive unit and transmits a driving force to the first drive unit to operate the first drive unit, and coupled to the second drive unit, the second drive unit by a user operation
  • a manually operated handle member of a surgical instrument comprising a handle for applying a driving force to the.
  • the first driver is provided with a first driver to be matched to an actuator formed at the tip of the robot arm
  • the power transmission means includes a wire coupled to the first driver
  • the second driver is to be matched with the first driver
  • Two drivers are installed, and the handle can transmit the driving force to the second driver by user manipulation.
  • One surface of the first driving unit may be mounted to the front end of the robot arm, and the second driving unit may be mounted to the other surface of the first driving unit.
  • the second driving unit is detachably mounted to the first driving unit, and when the second driving unit is separated from the first driving unit, a separate cover member may be coupled to the other surface of the first driving unit.
  • the surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
  • the adapter interposed to mount the instrument to the robot arm provided in the surgical robot, is mounted on the tip of the robot arm, the agent is operated by receiving a driving force from the robot arm
  • An adapter for a hybrid surgical robot is provided that includes a first drive unit and a handle coupled to the first drive unit and configured to apply a driving force to the first drive unit by a user operation.
  • the instrument is mounted to the first drive unit, the shaft is coupled to the second drive unit and the second drive unit is operated by receiving a driving force from the first drive unit, the power transmission means connected to the second drive unit therein; Is coupled to the distal end of the shaft, may be connected to the power transmission means may include an effector for performing the operation required for the operation in accordance with the operation of the second drive unit.
  • An actuator is formed at the tip of the robot arm, the first driver is provided with a first driver that is matched to the actuator, the second driver is provided with a second driver that is matched with the first driver, and the power transmission means is a second drive.
  • a wire coupled to the chair, the handle may transmit a driving force to the first driver by a user operation.
  • the surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
  • a robot for mounting the instrument to perform the operation the robot is formed on the tip of the robot arm, the actuator is driven in accordance with the control signal generated from the robot, the robot arm
  • a hybrid surgical robot is provided that is coupled and includes a handle that applies a driving force to the actuator by a user manipulation.
  • the instrument is mounted to the distal end of the robot arm, the drive unit is operated by receiving a driving force from the robot arm, coupled to the drive unit, a shaft for receiving a power transmission means connected to the drive unit therein, and coupled to the distal end of the shaft It may include an effector connected to the power transmission means for performing an operation required for surgery according to the operation of the drive unit.
  • the sensor unit may further include a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller performs a boost-up function for the user manipulation. can do.
  • the robot arm, and the instrument is mounted to the robot arm, and operated to receive a driving force from the robot arm, and includes a handle for applying the driving force to the instrument by a user operation
  • the instrument is a robot
  • a hybrid surgical robot system is provided that performs the operations necessary for surgery by one or more of the driving force transmitted from the arm and the driving force transmitted from the handle.
  • the handle may be coupled to any one or more of the robot arm and the instrument, and the handle may be made of a separate member and coupled to the instrument, or coupled to a sterile adapter interposed between the robot arm and the instrument.
  • the sensor unit may further include a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to apply a driving force to the robot arm in response to the sensing signal, wherein the controller may include a boost-up function for the user manipulation. Can be performed.
  • a surgical arm comprising a robot arm, an instrument mounted to the robot arm and operated to receive a driving force from the robot arm, and a manual operation handle for applying the driving force to the instrument by a user operation.
  • a method of controlling a robot comprising the steps of: (a) sensing a predetermined user manipulation to receive a sensing signal output from a sensor, and (b) adjusting a driving force transmitted from the robot arm in response to the sensing signal; Surgical robot control method is provided.
  • Step (a) may include detecting user manipulation of the handle and / or switch provided in the surgical robot, in which case step (b) may include a drive force or handle transmitted from the robot arm to the instrument. It may include the step of blocking the driving force transmitted from the instrument to the instrument. In addition, step (b) may include adjusting a driving force transmitted from the robot arm such that the user manipulation is boosted up.
  • a surgical arm comprising a robot arm, an instrument mounted to the robot arm and operated to receive a driving force from the robot arm, and a manual operation handle for applying the driving force to the instrument by a user operation.
  • a method of controlling a robot comprising: receiving a sensing signal generated by a predetermined user operation, allowing a history of driving an instrument according to a user operation on a handle to be stored as history data, and stored history data.
  • a surgical robot control method is provided, the method including driving a force generated from the robot arm so that the instrument is driven.
  • a program of instructions that can be executed by a digital processing apparatus is tangibly embodied and records a program that can be read by the digital processing apparatus.
  • a record carrier is provided.
  • the human and the robot can perform the operation together efficiently, emergency in the remote surgery process using the surgical robot If a situation arises, the doctor next to the patient can directly operate the handle to perform the operation.
  • the educator manually manipulates the handle by ignoring the trainee's robot operation if necessary or in case of an emergency, or vice versa.
  • the operation of the training can be made more interactive (interactive) training.
  • FIG. 1 is a conceptual diagram showing a hybrid surgical instrument according to an embodiment of the present invention.
  • Figure 2 is a conceptual diagram showing a hybrid surgical instrument according to another embodiment of the present invention.
  • Figure 3 is a view showing the structure of the handle according to an embodiment of the present invention and the operating state of the instrument accordingly.
  • Figure 4 is a view showing the structure of the handle and the operating state of the instrument according to another embodiment of the present invention.
  • FIG. 5 is a conceptual view showing a manual operation handle member of the surgical instrument according to an embodiment of the present invention.
  • FIG. 6 is a conceptual diagram showing an adapter for a hybrid surgical robot according to an embodiment of the present invention.
  • FIG. 7 is a conceptual diagram showing a hybrid surgical robot according to an embodiment of the present invention.
  • Figure 8 is a block diagram showing a hybrid surgical robot system according to an embodiment of the present invention.
  • FIG. 9 is a flow chart showing a surgical robot control method according to an embodiment of the present invention.
  • FIG. 10 is a flow chart showing a surgical robot control method according to another embodiment of the present invention.
  • first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.
  • FIG. 1 is a conceptual diagram showing a hybrid surgical instrument according to an embodiment of the present invention
  • Figure 2 is a conceptual diagram showing a hybrid surgical instrument according to another embodiment of the present invention
  • Figure 3 is an embodiment of the present invention 4 is a view showing the structure of the handle and the operating state of the instrument according to
  • Figure 4 is a view showing the structure of the handle and the operating state of the instrument according to another embodiment of the present invention. 1 to 4, the robot arm 3, the actuator 5, the handle 10, the instrument 20, the driver 22, the driver 23, the wire 24, and the shaft 26. Effector 28 is shown.
  • This embodiment is characterized in that by mounting a handle (handle) for manual operation on the instrument mounted on the surgical robot, the instrument mounted on the robot can be used for both manual surgery and robot surgery.
  • the instrument used for both manual surgery and robotic surgery as in the present embodiment will be described as 'hybrid surgical instrument'.
  • the hybrid surgical instrument 20 may be operated by a doctor by hand, as in general manual surgery, or may be mounted on the robot arm 3 to perform robot surgery by allowing the robot to perform a necessary operation. It may be.
  • the human hand holding the handle and manipulating the instrument 20 is called a handheld control, and the robot causes the instrument 20 to operate by being called robotic control.
  • the manual operation handle 10 is additionally installed on the instrument originally mounted on the surgical robot, and not only by the driving force generated and transmitted from the robot, but also the handle 10. It is characterized in that the instrument 20 is also operated by the user operation for the).
  • the instrument 20 is composed of a drive unit 22 mounted to the robot arm 3, a shaft 26 connected to the drive unit 22, and an effector 28 coupled to the end of the shaft 26, 1 and 2, the manual override handle 10 is further coupled to the drive unit 22.
  • the driving unit 22 mounted on the robot arm 3 is operated by receiving driving force from the robot arm 3, specifically, an actuator 5 formed on the robot arm 3 and a driver installed on the driving unit 22 (
  • the driving unit 22 is mounted on the robot arm 3 so that the 23 is connected to each other.
  • the actuator 5 is operated (rotation, reciprocation, etc.) in this state, the driver 23 engaged with the driving unit 23 is operated to generate the robot.
  • Drive force is transmitted to the instrument (20).
  • the manner in which the driver 23 is connected to the actuator 5 may be implemented in various ways depending on the shape and structure of the driver 23 and the actuator 5 such as gear coupling, fitting coupling, clutch coupling, and the like.
  • the drive unit 22 is coupled to the shaft 26 extending in one direction, the shaft 26 serves as a guide rod for mounting the effector 28 at its end to insert the effector 28 to the surgical site .
  • a plurality of wires 24 for connecting the driver 23 and the effector 28 to each other are accommodated in the shaft 26, so that the shaft 26 is driven between the driving unit 22 and the effector 28. It acts as a transmission pathway. 1 and 2, although the cylindrical rod-shaped shaft 26 is shown, it is a matter of course that the shaft 26 of various shapes and structures can be used within a range capable of performing the above-described role.
  • the pulley wire 24 is received in the shaft 26.
  • the effector 28 moves in four degrees of freedom, four pulley wires 24 each connected to four portions of the effector 28 pass through the shaft 26 and the driver 23 of four pulley structures. ), Respectively.
  • the driver 23 is operated by the operation of the actuator 5, and thus the effector is driven by the wire 24 that is pulley-coupled to the driver 23.
  • the movement of each part of 28 can cause the effector 28 to perform the operation required for surgery.
  • the driver 23 may be operated according to the operation of the actuator 5, but may also be operated according to the operation of the handle 10, and in any case, driving force is transmitted through the wire 24 according to the operation of the driver 23.
  • driving force is transmitted through the wire 24 according to the operation of the driver 23.
  • This causes the effector 28 coupled to the end of the shaft 26 to move.
  • the effector 28 connected with the driver 23 by the wire 24 can be operated by the driving of the robot or by the manipulation of the handle 10.
  • Blocking the driving force transmitted from the robot arm 3 to the instrument 20 can be implemented in various ways, for example, by installing a separate button on the surgical robot or by setting a specific movement of the handle 10 in advance, When the button is pressed or the handle 10 moves as set, the main controller of the robot may detect this to prevent generating a driving force or may not allow the generated driving force to be transmitted to the robot arm 3. Thereby, the robot arm 3 can be made to move freely by external force.
  • the surgical robot arm 3 is designed and controlled to rotate about a predetermined pivot center point, for example, the instrument 20 rotates around a point corresponding to a predetermined position of the distal end, and the virtual center point is 'remote center'. Or 'remote center of motion'.
  • the robot arm 3 is rotated around the RCM point, thereby preventing the patient's skin from being damaged and minimizing the perforation of the skin. have.
  • the robot arm 3 and the instrument 20 mounted thereon rotate around the RCM point, so that even if a person directly operates the instrument 20. Can move stably without departing from the RCM point. That is, when the handle 10 is moved in the up, down, left and right directions, the end portion (effector 28) of the instrument 20 moves in the bottom, up, right and left directions around the RCM point.
  • the instrument 20 when the instrument 20 according to the present embodiment is separated from the robot arm 3 and operated by hand-held control, the instrument 20 can be operated similarly to a conventional surgical instrument.
  • the handle 10 can be manipulated with a degree of freedom corresponding to the degree of freedom of operation of the effector 28.
  • the surgical instrument for manual operation may be designed and manufactured to move at 5 degrees of freedom, and the instrument 20 mounted on the surgical robot may move at 7 degrees of freedom, and may simply grip according to the type of the instrument 20. You can make it possible, or rotate it up, down, left, or right like a wrist.
  • the handle 10 by installing a gripper to the handle 10 so that the effector 28 is to grip (grip) operation, by pulling or pushing the gripper accordingly the effector 28 Allows the grip operation.
  • the shaft 26 can be twisted corresponding to the twisting operation of the handle 10.
  • the twisting operation of the handle 10 Z1 axis in FIG. 2
  • the shaft 26 may be twisted (rotation around the Z 2 axis in FIG. 2) corresponding to the rotation of the center).
  • the technical idea of the twisting operation of the handle and the shaft may be applied to the embodiments described below.
  • the effector 28 may be implemented in a bent direction in the bottom, up, right, and left directions.
  • a user manipulation method for the handle 10 and a method of operating the instrument 20 may be variously implemented.
  • the wrist operation of the instrument 20 and / or the effector 28 may be implemented by a method of operating by pushing in the up, down, left, and right directions.
  • the robot can be operated to compensate for the human ability by operating the instrument 20 again. As described above, blocking the manual operation by a person and causing the robot to operate the instrument 20 will be described below as a remote control.
  • the driving force may be insufficient only by manual operation by a person, and in this case, the driving force of the person may be amplified by the help of the driving force transmitted from the robot arm 3.
  • the sensor detects the movement to the left of the handle 10 and the The sensing signal may be transmitted to the main controller, and the controller 9 may generate the driving force by receiving the sensing signal to transmit the driving force through the robot arm 3 so that the effector 28 rotates to the right.
  • a 'boost-up function' for the user's operation.
  • the robot's main controller should be equipped with motion control functions based on various control techniques known to those skilled in the art, such as compliance control techniques, and a detailed description thereof will be omitted.
  • the robot is to be intervened to operate the instrument 20 during a manual operation by a human like the above-described boost-up function, which will be described as hybrid control.
  • the manual operation handle 10 is installed in the instrument 20 mounted on the surgical robot to operate in various manners.
  • the manual operation handle 10 is not necessarily installed only on the instrument 20, and other embodiments will be described in detail with reference to FIGS. 5 and 6 below.
  • FIG. 5 is a conceptual view showing a manual operation handle member of the surgical instrument according to an embodiment of the present invention. Referring to FIG. 5, the robot arm 3, the actuator 5, the handle 10, the handle member 12, the second driver 14, the second driver 15, the instrument 20, and the first The driver 22, the first driver 23, the wire 24, the shaft 26, and the effector 28 are shown.
  • the manual operation handle 10 is manufactured in the form of a separate member, that is, the handle member 12, and is mounted on the instrument 20 so that the instrument 20 can be manually operated. That is, as illustrated in FIG. 5, a separate handle member 12 may be manufactured and coupled to an opposite surface of the driving unit (first driving unit 22) of the instrument 20 mounted on the robot arm 3. .
  • the instrument 20 can be operated by the above-described handheld control, and the instrument 20 Couples the handle member 12 to the instrument 20 and manually operates the handle 10 even when the robot arm 3 is mounted on the robot arm 3, thereby controlling the instrument 20 by the aforementioned local control and / or hybrid control. I can operate it.
  • the handle member 12 may be separated.
  • the instrument 20 mounted on the robot is coupled to the handle member 12 (coupling) structure Only by adding it can be manufactured in the same manner as in the prior art, the manufacturing cost of the instrument 20 does not significantly increase, and the instrument 20 can be manufactured without any difference from the robot-specific instrument 20 in appearance.
  • the handle member 12 is composed of a second drive unit 14, the handle 10 coupled thereto.
  • the handle member 12 is mounted to the instrument 20 by coupling the second drive unit 14 to the first drive unit 22.
  • the handle member 12 has a structure in which the second driver 14, more specifically, the second driver 15 installed in the second driver 14, is operated as the user manipulates the handle 10.
  • the second driving unit 14 By mounting the second driving unit 14 to the first driving unit 22 and operating the second driving unit 14 by operating the handle 10, the driving force is transmitted to the first driving unit 22 so that the instrument 20 It will work.
  • the structure of the instrument 20 is the same as the above-described embodiment, except that the structure for operating by mounting the handle member 12 to the drive unit is formed. That is, as shown in FIG. 5, when one surface of the first driving unit 22 is mounted to the robot arm 3, a coupling mechanism for mounting the handle member 12 on the other surface of the first driving unit 22 ( A mechanism is formed, and by attaching the second drive unit 14 to it, the instrument 20 can be operated manually.
  • the 'other surface' of the first driving unit 22 does not necessarily mean a surface opposite to the surface mounted on the robot arm 3, and includes all surfaces other than the surface mounted on the robot arm 3,
  • the handle member 12 according to the present embodiment may be coupled to either side of the first driving unit 22.
  • the first driver 22 is provided with a first driver 23 engaged with the actuator 5 of the robot arm 3, and as shown in FIG. 5, the first driver 23 includes a handle member 12. ) Is also exposed to the side where it is combined. Accordingly, the first driver is engaged by coupling the second driver 14 to the first driver 22 so that the second driver 15 installed in the second driver 14 meshes with the first driver 23. 23 is operated not only by the actuator 5 but also by user operation with respect to the handle 10.
  • the connection method between the first driver 23 and the second driver 15 may be implemented in various ways as in the connection method between the actuator 5 and the first driver 23.
  • the handle member 12 may be separated, but the handle member 12 When is separated, the internal structure of the first drive unit 22 (for example, the first driver 23) may be exposed, in this case the other side of the first drive unit 22, that is, the handle member 12
  • the first driving unit 22 may be protected by attaching a separate cover member to the surface to which the is coupled.
  • the instrument 20 can be used to produce a variety of manual operation handle member 12 to meet a variety of needs, such as the need in the surgical process, the user's taste, price.
  • FIG. 6 is a conceptual diagram showing an adapter for a hybrid surgical robot according to an embodiment of the present invention. Referring to FIG. 6, the robot arm 3, the actuator 5, the handle 10, the adapter 16, the first driver 18, the first driver 19, the instrument 20, and the second driver 22, second driver 23, wire 24, shaft 26, effector 28 are shown.
  • This embodiment is an example used as a hybrid surgical robot adapter 16 by installing a handle 10 to a sterile adapter interposed therebetween to mount the instrument 20 to the robot arm 3.
  • the handle 10 instead of mounting the handle 10 directly to the instrument 20, or to manufacture a separate handle member 12 to the sterile adapter 16 used in the site for connecting the instrument 20 and the robot arm 3 It includes a manual steering wheel function. As such, when the handle 10 is mounted on the sterilizing adapter 16, the handle 10 does not need to be directly mounted for each instrument 20, thereby reducing the cost.
  • the hybrid surgical robot adapter 16 is an adapter 16 interposed therebetween in the process of mounting the instrument 20 on the robot arm 3, and includes a driving unit (first driving unit 18). And a handle 10 coupled to the first drive unit 18, wherein the first drive unit 18 is mounted on the robot arm 3, and the drive unit (second drive unit 22) of the instrument 20 is first mounted.
  • an adapter 16 is interposed between the instrument 20 and the robot arm 3.
  • the first driver 18 is coupled to the actuator 5 of the robot arm 3 so that the driving force from the robot arm 3 is driven in such a way that the first driver 19 is operated in accordance with the operation of the actuator 5.
  • the adapter 16 has a structure in which the first driver 18, more specifically, the first driver 19 installed in the first driver 18 is operated as the user manipulates the handle 10.
  • the second driver 22 By mounting the second driver 22 to the first driver 18 and manipulating the handle 10 to operate the first driver 19, the second driver 23 installed in the second driver 22. Is activated so that the instrument 20 can also be operated by manual operation.
  • the manual operation is possible by interposing the adapter 16 between the robot arm 3 and the instrument 20.
  • the driving force is transmitted from the robot arm 3 or by the operation of the handle 10.
  • the instrument 20 that is operated by receiving may be manufactured in the same structure as in the prior art within the range that can be mounted on the adapter 16.
  • the adapter 16 When the manual operation function is added to the adapter 16 as described above, one side of the first driving unit 18 is mounted to the robot arm 3 and the second driving unit 22 is mounted on the other side of the first driving unit 18. In this way, the adapter 16 according to the present embodiment is interposed between the robot arm 3 and the instrument 20 to function as a handle 10 for manually manipulating the instrument 20. .
  • the adapter 16 may be manufactured separately, but may also be manufactured by adding the handle 10 to the sterile adapter originally mounted on the surgical robot, and thus, the handle 10
  • This manually operated sterilization adapter 16 is manufactured separately, and in the case of general robot surgery, the conventional sterilization adapter is used, and in the case of performing hybrid surgery with manual manipulation, the conventional sterilization adapter is manually operated sterilization.
  • the adapter 16 can be used as a replacement.
  • FIG. 7 is a conceptual diagram illustrating a hybrid surgical robot according to an embodiment of the present invention. Referring to FIG. 7, the robot arm 3 actuator 5, the handle 10, the instrument 20, the driver 22, the driver 23, the wire 24, the shaft 26, and the effector 28. ) Is shown.
  • the manual override handle 10 may be added directly to the robot arm 3, as shown in FIG. 7.
  • the existing instrument 20 or the sterile adapter 16 may be installed without changing the structure of the instrument 20 or the sterile adapter.
  • the advantage is that it can be used as a hybrid surgical robot.
  • the handle 10 when the handle 10 is installed on the robot arm 3 according to the present embodiment, the handle 10 is located at the tip end of the robot arm 3, that is, the site where the instrument 20 is mounted on the robot arm 3.
  • the actuator 5 may be configured to be connected to the actuator 5 to be formed and operate the actuator 10 as the user manipulates the handle 10.
  • the actuator 5 formed on the robot arm 3 may be driven by a control signal generated and transmitted from the robot, or may be operated by a user operation on the handle 10 connected to the actuator 5.
  • the sterilizing adapter and the instrument mounted on the robot arm 3 may have the same structure as the conventional structure.
  • the above-described boost-up function may be implemented in the handle 10 installed in the robot arm 3, that is, the user may not recognize the handle 10 by a method such as sensing an initial operation of the handle 10.
  • the actuator 20 can be driven by generating and transmitting a driving force so that the instrument 20 moves as intended by the user.
  • the surgical robot described above and / or described later includes a sensor unit 7 that detects an initial operation of the handle 10 and outputs a sensing signal, and generates a driving force according to the sensing signal to generate a driving force through the robot arm 3.
  • the controller 9 may be installed to control the driving force to be transmitted to the instrument 20.
  • the sensor unit 7 may include various types of sensors, such as a contact sensor, an acceleration sensor, and an infrared sensor installed on the handle 10, and the controller 9 may be implemented as a separate microprocessor or a main controller of a surgical robot. It may be implemented in the form of some module.
  • FIG. 8 is a block diagram showing a hybrid surgical robot system according to an embodiment of the present invention. Referring to FIG. 8, a robot arm 3, a sensor unit 7, a controller 9, a handle 10, and an instrument 20 are shown.
  • the present embodiment relates to a surgical robot system for performing a hybrid surgery by additionally installing a manual operation handle 10, the entire robot system is mounted on the robot arm (3), robot arm (3) (20) And the handle 10 added to the robot system, the instrument 20 may be operated by receiving a driving force from the robot arm 3, or may be operated by receiving a driving force from the handle 10 manipulated by a user. have.
  • Coupling of the handle 10 is coupled to the instrument 20, directly to the robot arm 3, or made of a separate handle member 12 mounted on the instrument 20, It can be coupled in a variety of positions and manners within the range of manual manipulation of the surgical robot system, such as coupled to sterile adapter 16.
  • the device in which the handle 10 is not installed may have the same structure.
  • the surgical robot system may have a function of boosting the operation of the handle 10 by the user, for this purpose, the sensor unit for sensing the content of the user operating the handle 10 (7) can be further installed, and the input, processing of the signal sensed by the controller 9 for controlling the system, and control of the driving force for performing the boost-up function accordingly can be performed.
  • FIG. 9 is a flow chart showing a surgical robot control method according to an embodiment of the present invention.
  • This embodiment is a robot control method for performing the surgery by the manual operation and the operation by the robot using the above-described surgical robot.
  • the control mode of the surgical robot according to the present embodiment is largely a handheld control mode in which a person operates the instrument 20 while holding the handle 10 by hand, and the robot 20 is an instrument 20. It can be classified into robotic control mode, which is in some form of intervention.
  • Hybrid control mode in which the robot 20 intervenes during manual operation by a human, such as a remote control mode in which the robot 20 is operated, and a third boost-up function. control mode) may correspond.
  • Surgical robot control method basically, by sensing the user's manipulation of the handle 10 and / or a switch provided separately, such as to receive a sensing signal output (S10), according to the sensing signal
  • the robot may be configured as a process of controlling generation and transmission of driving force to be driven to suit various control modes (S20).
  • the sensing signal is in a local control mode, i.e., although the instrument 20 is mounted on the robot, but is not driven, the human body manipulates the manual control handle 10 to directly manipulate the instrument 20.
  • the main controller of the robot may block the driving force transmitted from the robot arm 3 to the instrument 20 (S22), and allow the instrument 20 to move only by a user's manipulation.
  • the robot arm 3 may rotate about the RCM point, such that the design and mechanical constraints of the robot itself may be reflected in the manipulation of the instrument 20 as described above.
  • the main controller of the robot Blocks the driving force transmitted from the handle 10 to the instrument 20 (S24), the instrument 20 can be moved only by the operation of the robot.
  • Mechanisms for blocking the driving force between the robot arm 3 and the instrument 20 and / or between the handle 10 and the instrument 20 can be implemented in a variety of ways, the detailed description of which is omitted herein.
  • the sensing signal may be a hybrid control mode, that is, a human may manually manipulate the handle 10 to operate the instrument 20 to amplify a force that the robot manipulates the handle 10 to operate.
  • the main controller of the robot controls the driving force transmitted from the robot arm 3 such that the user operation is implemented as intended, for example, boosted up. It may be (S26).
  • hybrid control in various ways is possible, such as a function that allows a robot to intervene in a precise motion or a dangerous motion that is difficult for a human to operate, and a detailed description of the control algorithm is omitted here.
  • the surgical robot system to which the manual operation handle 10 is added, it is possible to perform a surgery that is performed by manual operation by a person and operation by a robot. For example, if there are four robot arms 3, two are manually operated by a person directly by local control, and the other two are operated by a remote control by a doctor (at the console of the surgical robot) This can improve the safety and efficiency of the surgery compared to manipulating all four robotic arms 3 while changing hands by the doctor alone in the surgical robot console.
  • the on-site doctor While performing a remote operation using the surgical robot according to the present embodiment, if an emergency occurs such as a malfunction of the doctor operating the master console or a malfunction of the robot system, the on-site doctor immediately presses a switch to In the control mode, the robot arm 3 can be freely moved to manually operate the instrument 20 to perform an operation directly to overcome the emergency situation.
  • an emergency such as a malfunction of the doctor operating the master console or a malfunction of the robot system
  • the surgical training can be performed by using the surgical robot according to the present embodiment, the robot arm (3) in the state in which the instrument 20 is mounted in the local control mode so that the robot does not operate the instrument (20)
  • the learner can manually operate the instrument 20 to perform the surgery, the educator can sit in the master console to watch the situation where the learner performs the surgery.
  • the educator can immediately switch the robot to the remote control mode to overcome the emergency situation caused by operating the robot.
  • the learner sits on the master console to perform robotic surgery, the educator watches the instrument 20 operate, and the learner immediately switches the robot to local control mode when the learner malfunctions or has an emergency. It is also possible to overcome the emergency situation caused by manipulating the robot.
  • the conversion between various control modes may be implemented by various methods such as manipulating the manual operation handle 10 installed in the robot in a preset manner or pressing a switch provided separately. have.
  • FIG. 10 is a flowchart showing a surgical robot control method according to another embodiment of the present invention.
  • the surgical robot according to the present embodiment can be operated both by manual operation and by the robot, the robot can immediately track the contents of the previously input manual operation immediately or later, so that the robot can be used for high difficulty surgery or surgical education.
  • the user when it is determined that the sensing signal is input by the user's manipulation (S30) and the contents of manual manipulation are logged in the future, the user operates the handle 10 to record the history of the driving of the instrument 20.
  • the data is stored in the form (S40).
  • the surgical robot control method according to the embodiment of the present invention described above may be performed in combination with a predetermined device, for example, a surgical robot system after being stored in a recording medium.
  • the recording medium may be a magnetic or optical recording medium such as a hard disk, a video tape, a CD, a VCD, a DVD, or a database of a client or server computer built offline or online.

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Abstract

Disclosed are a hybrid surgical robot system and a method for controlling a surgical robot. The hybrid surgical robot system comprises: a robot arm; an instrument mounted on the robot arm such that the instrument operates by the driving force delivered by the robot arm; and a handle which applies a driving force to the instrument by user manipulation, wherein said instrument performs surgical tasks by the driving force delivered by the robot arm and/or by the driving force delivered by the handle. The hybrid surgical robot system of the present invention has said manual handle mounted on the surgical robot having the instrument, thus efficiently conducting surgery through the cooperation between a surgeon and the robot, and the surgeon near the patient can directly and manually manipulate the handle to conduct surgery upon the occurrence of emergency during the performance of a remote surgical procedure using the surgical robot.

Description

하이브리드 수술용 로봇 시스템 및 수술용 로봇 제어방법Hybrid Surgical Robot System and Surgical Robot Control Method
본 발명은 하이브리드 수술용 로봇 시스템 및 수술용 로봇 제어방법에 관한 것이다.The present invention relates to a hybrid surgical robot system and a surgical robot control method.
의학적으로 수술이란 피부나 점막, 기타 조직을 의료 기계를 사용하여 자르거나 째거나 조작을 가하여 병을 고치는 것을 말한다. 특히, 수술부위의 피부를 절개하여 열고 그 내부에 있는 기관 등을 치료, 성형하거나 제거하는 개복 수술 등은 출혈, 부작용, 환자의 고통, 흉터 등의 문제로 인하여 최근에는 로봇(robot)을 사용한 수술이 대안으로서 각광받고 있다.Medically, surgery refers to healing a disease by cutting, slitting, or manipulating skin, mucous membranes, or other tissues with a medical device. In particular, open surgery, which incise the skin of the surgical site and open, treat, shape, or remove the organs inside of the surgical site, has recently been performed using robots due to problems such as bleeding, side effects, patient pain, and scars. This alternative is in the spotlight.
이러한 수술용 로봇은 수술을 위한 조작을 위해 로봇 암을 구비하게 되며, 로봇 암의 선단부에는 인스트루먼트(instrument)가 장착되어, 로봇으로부터 생성, 전달되는 구동력에 의해 인스트루먼트가 수술에 필요한 동작을 수행하게 된다.Such a surgical robot is provided with a robot arm for operation for surgery, the instrument is mounted on the front end of the robot arm, the instrument performs the operation required for surgery by the driving force generated and transmitted from the robot .
그러나, 종래의 로봇 수술은 수술용 로봇을 구동시켜 수행하는 도중에 사람이 직접 수동으로 수행하는 수술을 필요로 한다는 문제가 있으며, 대개의 경우 수술의 전체 과정을 처음부터 끝까지 로봇으로만 수행하지 못한다는 한계가 있다. 즉, 종래의 로봇 수술은, 수술 기구를 사용하여 수동으로 일부 수술 과정을 수행하고, 수술용 로봇을 구동시켜 로봇 수술을 수행한 후, 다시 수술 기구를 사용하여 수동으로 나머지 수술 과정을 수행하는 방식으로 진행되어 왔다.However, the conventional robot surgery has a problem that a human manual surgery is required while driving the surgical robot, and in most cases, the entire operation of the operation cannot be performed only by the robot from the beginning to the end. There is a limit. That is, in the conventional robotic surgery, a method of manually performing some surgical procedures using a surgical instrument, driving the surgical robot to perform a robotic operation, and then manually performing the remaining surgical procedures using the surgical instrument again. Has been progressed.
보다 구체적으로 설명하면, 수동으로 조작하는 수술 기구와 수술용 로봇에 장착되는 수술 기구(인스트루먼트)는 서로 호환되지 않으므로, 수술 기구를 사용하여 수동으로 수술을 진행하다가, 로봇 수술을 수행하기 위해 사용된 수술 기구를 모두 철거한 후, 수술용 로봇에 인스트루먼트를 장착하여 로봇 수술을 수행하다가, 수동 수술이 필요한 경우 다시 인스트루먼트를 모두 철거한 후 수동으로 수술 기구를 사용하여 수술을 수행하는 과정을 거쳐야 한다는 번거로움이 있었다.More specifically, since the surgical instruments to be manually operated and the surgical instruments (instruments) mounted on the surgical robot are not compatible with each other, the surgical instruments are manually operated using the surgical instruments, and then used to perform the robot surgery. After removing all the surgical instruments, attach the instrument to the surgical robot to perform the robot operation, and if manual surgery is needed, remove all the instruments again, and then manually perform the operation using the surgical instruments. There was a feeling.
종래의 로봇 수술은, 수동으로 조작되는 수술 기구를 환부에 삽입하거나 환부로부터 철거하는, 매우 번거로운 작업을 수행해야 하며, 수술 과정에서 수동조작용 수술기구와 로봇에 장착되는 인스트루먼트가 모두 사용되어야 하기 때문에, 수술에 소요되는 시간, 노력 및 비용이 증가하게 된다는 문제가 있었다.Conventional robotic surgery has to perform a very cumbersome task of inserting or removing a manually operated surgical instrument into the affected area, and both the manually operated surgical instrument and the instrument mounted on the robot must be used during the surgery. There was a problem that the time, effort and cost of surgery would increase.
전술한 배경기술은 발명자가 본 발명의 도출을 위해 보유하고 있었거나, 본 발명의 도출 과정에서 습득한 기술 정보로서, 반드시 본 발명의 출원 전에 일반 공중에게 공개된 공지기술이라 할 수는 없다.The background art described above is technical information possessed by the inventors for the derivation of the present invention or acquired during the derivation process of the present invention, and is not necessarily a publicly known technique disclosed to the general public before the application of the present invention.
본 발명은, 필요에 따라 사람과 로봇이 함께 수술을 수행할 수 있고, 로봇 수술 과정에서 응급 상황이 발생할 경우 사람이 직접 수동으로 수술을 수행할 수 있으며, 이에 따라 원격 수술이나 수술 교육 등에도 적용할 수 있는 하이브리드 수술용 로봇 시스템 및 수술용 로봇 제어방법을 제공하는 것이다.The present invention, the human and the robot can perform the operation as needed, if the emergency situation occurs in the robot surgery process, the person can perform the operation manually, accordingly, also applied to remote surgery or surgery education It is to provide a hybrid surgical robot system and a surgical robot control method that can be.
본 발명의 일 측면에 따르면, 수술용 로봇에 구비된 로봇 암(arm)에 장착되는 인스트루먼트(instrument)로서, 인스트루먼트에는 수동조작용 핸들(handle)이 결합되며, 인스트루먼트는 핸들에 대한 사용자 조작에 의해 수술에 필요한 동작을 수행하는 것을 특징으로 하는 하이브리드(hybrid) 수술용 인스트루먼트가 제공된다.According to an aspect of the present invention, as an instrument (instrument) mounted on the robot arm (arm) provided in the surgical robot, the instrument is coupled to a manual operation handle (handle), the instrument by a user operation on the handle A hybrid surgical instrument is provided, which performs an operation necessary for surgery.
하이브리드 수술용 인스트루먼트는, 로봇 암의 선단부에 장착되며, 로봇 암으로부터 구동력을 전달받아 작동되는 구동부와, 구동부에 결합되며, 그 내부에 구동부에 연결되는 동력전달수단을 수용하는 샤프트(shaft)와, 샤프트의 말단부에 결합되며, 동력전달수단에 연결되어 로봇 암 및 핸들 중 어느 하나 이상으로부터 전달되는 구동력에 의해 작동되는 이펙터(effector)를 포함하되, 핸들은 구동부에 결합되며, 사용자 조작에 의해 동력전달수단에 구동력을 인가할 수 있다.The hybrid surgical instrument is mounted to the front end of the robot arm, a shaft that receives a driving force from the robot arm and is operated by a driving force, coupled to the driving unit, and receives power transmission means connected to the driving unit therein; An effector coupled to the distal end of the shaft, the effector being coupled to the power transmission means and actuated by a driving force transmitted from any one or more of the robot arm and the handle, the handle being coupled to the drive and powered by a user operation. Driving force can be applied to the means.
로봇 암의 선단부에는 액츄에이터(actuator)가 형성되고, 구동부에는 액츄에이터에 정합되는 구동자가 설치되며, 동력전달수단은 구동자에 결합되는 와이어(wire)를 포함하되, 핸들은 사용자 조작에 의해 구동자에 구동력을 전달할 수 있다. 핸들은 이펙터의 작동 자유도에 상응하는 자유도로 조작될 수 있다.An actuator is formed at the front end of the robot arm, and a driver is installed in the driver, and the power transmission means includes a wire coupled to the driver, and the handle is connected to the driver by a user operation. It can transmit the driving force. The handle can be manipulated with degrees of freedom corresponding to the degree of freedom of operation of the effector.
수술용 로봇은, 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와, 센싱 신호에 상응하여 제어 신호를 생성하는 컨트롤러를 더 포함하되, 컨트롤러는, 사용자 조작에 대한 부스트업(boost-up) 기능을 수행할 수 있다.The surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
한편, 본 발명의 다른 측면에 따르면, 수술용 로봇에 구비된 로봇 암의 선단부에 장착되며, 로봇 암으로부터 구동력을 전달받아 작동되는 제1 구동부와, 제1 구동부에 결합되며 그 내부에 제1 구동부에 연결되는 동력전달수단을 수용하는 샤프트와, 샤프트의 말단부에 결합되며 동력전달수단에 연결되어 제1 구동부 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함하는, 로봇 수술용 인스트루먼트에 결합되어 인스트루먼트를 수동으로 조작하기 위한 핸들부재로서, 제1 구동부에 장착되며 제1 구동부에 구동력을 전달하여 제1 구동부가 작동되도록 하는 제2 구동부와, 제2 구동부에 결합되며, 사용자 조작에 의해 제2 구동부에 구동력을 인가하는 핸들을 포함하는 수술용 인스트루먼트의 수동조작용 핸들부재가 제공된다.On the other hand, according to another aspect of the present invention, the first drive unit is mounted to the front end of the robot arm provided in the surgical robot, and is operated by receiving a driving force from the robot arm, coupled to the first drive unit and the first drive unit therein A shaft coupled to the instrument for receiving a power transmission means connected to the instrument, comprising an effector coupled to the distal end of the shaft and connected to the power transmission means for performing the operation required for the operation according to the operation of the first drive unit As a handle member for manually operating the drive, the second drive unit is mounted to the first drive unit and transmits a driving force to the first drive unit to operate the first drive unit, and coupled to the second drive unit, the second drive unit by a user operation There is provided a manually operated handle member of a surgical instrument comprising a handle for applying a driving force to the.
제1 구동부에는 로봇 암의 선단부에 형성되는 액츄에이터에 정합되는 제1 구동자가 설치되고, 동력전달수단은 제1 구동자에 결합되는 와이어를 포함하되, 제2 구동부에는 제1 구동자와 정합되는 제2 구동자가 설치되며, 핸들은 사용자 조작에 의해 제2 구동자에 구동력을 전달할 수 있다.The first driver is provided with a first driver to be matched to an actuator formed at the tip of the robot arm, the power transmission means includes a wire coupled to the first driver, the second driver is to be matched with the first driver Two drivers are installed, and the handle can transmit the driving force to the second driver by user manipulation.
제1 구동부의 일면은 로봇 암의 선단부에 장착되고, 제1 구동부의 타면에는 제2 구동부가 장착될 수 있다. 이 경우, 제2 구동부는 제1 구동부에 탈착가능하도록 장착되며, 제2 구동부가 제1 구동부로부터 분리된 경우 제1 구동부의 타면에는 별도의 커버 부재가 결합될 수 있다.One surface of the first driving unit may be mounted to the front end of the robot arm, and the second driving unit may be mounted to the other surface of the first driving unit. In this case, the second driving unit is detachably mounted to the first driving unit, and when the second driving unit is separated from the first driving unit, a separate cover member may be coupled to the other surface of the first driving unit.
수술용 로봇은, 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와, 센싱 신호에 상응하여 제어 신호를 생성하는 컨트롤러를 더 포함하되, 컨트롤러는, 사용자 조작에 대한 부스트업(boost-up) 기능을 수행할 수 있다.The surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
한편, 본 발명의 다른 측면에 따르면, 수술용 로봇에 구비된 로봇 암에 인스트루먼트를 장착하기 위해 개재되는 어댑터(adapter)로서, 로봇 암의 선단부에 장착되며, 로봇 암으로부터 구동력을 전달받아 작동되는 제1 구동부와, 제1 구동부에 결합되며, 사용자 조작에 의해 제1 구동부에 구동력을 인가하는 핸들을 포함하는 하이브리드 수술 로봇용 어댑터가 제공된다.On the other hand, according to another aspect of the invention, the adapter (adapter) interposed to mount the instrument to the robot arm provided in the surgical robot, is mounted on the tip of the robot arm, the agent is operated by receiving a driving force from the robot arm An adapter for a hybrid surgical robot is provided that includes a first drive unit and a handle coupled to the first drive unit and configured to apply a driving force to the first drive unit by a user operation.
인스트루먼트는, 제1 구동부에 장착되며, 제1 구동부로부터 구동력을 전달받아 작동되는 제2 구동부와, 제2 구동부에 결합되며, 그 내부에 제2 구동부에 연결되는 동력전달수단을 수용하는 샤프트와, 샤프트의 말단부에 결합되며, 동력전달수단에 연결되어 제2 구동부의 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함할 수 있다.The instrument is mounted to the first drive unit, the shaft is coupled to the second drive unit and the second drive unit is operated by receiving a driving force from the first drive unit, the power transmission means connected to the second drive unit therein; Is coupled to the distal end of the shaft, may be connected to the power transmission means may include an effector for performing the operation required for the operation in accordance with the operation of the second drive unit.
로봇 암의 선단부에는 액츄에이터가 형성되고, 제1 구동부에는 액츄에이터에 정합되는 제1 구동자가 설치되며, 제2 구동부에는 제1 구동자에 정합되는 제2 구동자가 설치되고, 동력전달수단은 제2 구동자에 결합되는 와이어를 포함하며, 핸들은 사용자 조작에 의해 제1 구동자에 구동력을 전달할 수 있다.An actuator is formed at the tip of the robot arm, the first driver is provided with a first driver that is matched to the actuator, the second driver is provided with a second driver that is matched with the first driver, and the power transmission means is a second drive. A wire coupled to the chair, the handle may transmit a driving force to the first driver by a user operation.
제1 구동부의 일면은 로봇 암의 선단부에 장착되고, 제1 구동부의 타면에는 제2 구동부가 장착될 수 있으며, 어댑터는 수술용 로봇에 장착되는 멸균 어댑터(sterile adapter)로 사용될 수 있다. 수술용 로봇은, 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와, 센싱 신호에 상응하여 제어 신호를 생성하는 컨트롤러를 더 포함하되, 컨트롤러는, 사용자 조작에 대한 부스트업(boost-up) 기능을 수행할 수 있다.One surface of the first driving unit may be mounted to the front end of the robot arm, and the second driving unit may be mounted to the other surface of the first driving unit, and the adapter may be used as a sterile adapter mounted to the surgical robot. The surgical robot further includes a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller includes a boost-up for the user manipulation. up) function.
한편, 본 발명의 다른 측면에 따르면, 로봇 암에 인스트루먼트를 장착하여 수술을 수행하기 위한 로봇으로서, 로봇 암의 선단부에 형성되며, 로봇으로부터 생성되는 제어 신호에 상응하여 구동되는 액츄에이터와, 로봇 암에 결합되며, 사용자 조작에 의해 액츄에이터에 구동력을 인가하는 핸들을 포함하는 하이브리드 수술용 로봇이 제공된다.On the other hand, according to another aspect of the present invention, a robot for mounting the instrument to perform the operation, the robot is formed on the tip of the robot arm, the actuator is driven in accordance with the control signal generated from the robot, the robot arm A hybrid surgical robot is provided that is coupled and includes a handle that applies a driving force to the actuator by a user manipulation.
인스트루먼트는, 로봇 암의 선단부에 장착되며, 로봇 암으로부터 구동력을 전달받아 작동되는 구동부와, 구동부에 결합되며, 그 내부에 구동부에 연결되는 동력전달수단을 수용하는 샤프트와, 샤프트의 말단부에 결합되며, 동력전달수단에 연결되어 구동부의 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함할 수 있다.The instrument is mounted to the distal end of the robot arm, the drive unit is operated by receiving a driving force from the robot arm, coupled to the drive unit, a shaft for receiving a power transmission means connected to the drive unit therein, and coupled to the distal end of the shaft It may include an effector connected to the power transmission means for performing an operation required for surgery according to the operation of the drive unit.
핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와, 센싱 신호에 상응하여 제어 신호를 생성하는 컨트롤러를 더 포함하되, 컨트롤러는, 사용자 조작에 대한 부스트업(boost-up) 기능을 수행할 수 있다.The sensor unit may further include a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to generate a control signal in response to the sensing signal, wherein the controller performs a boost-up function for the user manipulation. can do.
한편, 본 발명의 다른 측면에 따르면, 로봇 암과, 로봇 암에 장착되며, 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와, 사용자 조작에 의해 인스트루먼트에 구동력을 인가하는 핸들을 포함하되, 인스트루먼트는 로봇 암으로부터 전달된 구동력 및 핸들로부터 전달된 구동력 중 하나 이상에 의해 수술에 필요한 동작을 수행하는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템이 제공된다.On the other hand, according to another aspect of the present invention, the robot arm, and the instrument is mounted to the robot arm, and operated to receive a driving force from the robot arm, and includes a handle for applying the driving force to the instrument by a user operation, the instrument is a robot A hybrid surgical robot system is provided that performs the operations necessary for surgery by one or more of the driving force transmitted from the arm and the driving force transmitted from the handle.
핸들은 로봇 암과 인스트루먼트 중 어느 하나 이상에 결합될 수 있으며, 핸들은 별도의 부재로 제작되어 인스트루먼트에 결합되거나, 로봇 암과 인스트루먼트 사이에 개재되는 멸균 어댑터에 결합될 수 있다.The handle may be coupled to any one or more of the robot arm and the instrument, and the handle may be made of a separate member and coupled to the instrument, or coupled to a sterile adapter interposed between the robot arm and the instrument.
핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와, 센싱 신호에 상응하여 로봇 암에 구동력을 인가하는 컨트롤러를 더 포함하되, 컨트롤러는, 사용자 조작에 대한 부스트업(boost-up) 기능을 수행할 수 있다.The sensor unit may further include a sensor unit configured to detect a user manipulation of the handle and output a sensing signal, and a controller to apply a driving force to the robot arm in response to the sensing signal, wherein the controller may include a boost-up function for the user manipulation. Can be performed.
한편, 본 발명의 다른 측면에 따르면, 로봇 암과, 로봇 암에 장착되며 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와, 사용자 조작에 의해 인스트루먼트에 구동력을 인가하는 수동조작용 핸들을 포함하는 수술용 로봇을 제어하는 방법으로서, (a) 소정의 사용자 조작을 감지하여 센서로부터 출력되는 센싱 신호를 입력받는 단계, 및 (b) 센싱 신호에 상응하여 로봇 암으로부터 전달되는 구동력을 조절하는 단계를 포함하는 수술용 로봇 제어방법이 제공된다.On the other hand, according to another aspect of the present invention, a surgical arm comprising a robot arm, an instrument mounted to the robot arm and operated to receive a driving force from the robot arm, and a manual operation handle for applying the driving force to the instrument by a user operation. A method of controlling a robot, the method comprising the steps of: (a) sensing a predetermined user manipulation to receive a sensing signal output from a sensor, and (b) adjusting a driving force transmitted from the robot arm in response to the sensing signal; Surgical robot control method is provided.
단계 (a)는, 핸들 및/또는 수술용 로봇에 구비된 스위치에 대한 사용자 조작을 감지하는 단계를 포함할 수 있으며, 이 경우, 단계 (b)는, 로봇 암으로부터 인스트루먼트에 전달되는 구동력 또는 핸들로부터 인스트루먼트에 전달되는 구동력이 차단되도록 하는 단계를 포함할 수 있다. 또한, 단계 (b)는, 사용자 조작이 부스트업(boost-up)되도록 로봇 암으로부터 전달되는 구동력을 조절하는 단계를 포함할 수 있다.Step (a) may include detecting user manipulation of the handle and / or switch provided in the surgical robot, in which case step (b) may include a drive force or handle transmitted from the robot arm to the instrument. It may include the step of blocking the driving force transmitted from the instrument to the instrument. In addition, step (b) may include adjusting a driving force transmitted from the robot arm such that the user manipulation is boosted up.
한편, 본 발명의 다른 측면에 따르면, 로봇 암과, 로봇 암에 장착되며 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와, 사용자 조작에 의해 인스트루먼트에 구동력을 인가하는 수동조작용 핸들을 포함하는 수술용 로봇을 제어하는 방법으로서, 소정의 사용자 조작에 의해 생성되는 센싱 신호를 입력받는 단계, 핸들에 대한 사용자 조작에 따라 인스트루먼트가 구동된 이력이 히스토리(history) 데이터로 저장되도록 하는 단계, 및 저장된 히스토리 데이터에 상응하여 인스트루먼트가 구동되도록, 로봇 암으로부터 전달되는 구동력이 생성되도록 하는 단계를 포함하는 수술용 로봇 제어방법이 제공된다.On the other hand, according to another aspect of the present invention, a surgical arm comprising a robot arm, an instrument mounted to the robot arm and operated to receive a driving force from the robot arm, and a manual operation handle for applying the driving force to the instrument by a user operation. A method of controlling a robot, the method comprising: receiving a sensing signal generated by a predetermined user operation, allowing a history of driving an instrument according to a user operation on a handle to be stored as history data, and stored history data In accordance with the present invention, a surgical robot control method is provided, the method including driving a force generated from the robot arm so that the instrument is driven.
한편, 본 발명의 다른 측면에 따르면, 전술한 수술용 로봇 제어방법을 수행하기 위하여 디지털 처리 장치에 의해 실행될 수 있는 명령어들의 프로그램이 유형적으로 구현되어 있으며 디지털 처리 장치에 의해 판독될 수 있는 프로그램을 기록한 기록매체가 제공된다.Meanwhile, according to another aspect of the present invention, in order to perform the above-described surgical robot control method, a program of instructions that can be executed by a digital processing apparatus is tangibly embodied and records a program that can be read by the digital processing apparatus. A record carrier is provided.
전술한 것 외의 다른 측면, 특징, 잇점이 이하의 도면, 특허청구범위 및 발명의 상세한 설명으로부터 명확해질 것이다.Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.
본 발명의 바람직한 실시예에 따르면, 인스트루먼트가 장착된 수술용 로봇에 수동조작용 핸들을 더 부가함으로써, 사람과 로봇이 함께 효율적으로 수술을 수행할 수 있고, 수술용 로봇을 이용한 원격 수술 과정에서 응급 상황이 발생할 경우 환자 옆에 있는 의사가 직접 수동으로 핸들을 조작하여 수술을 수행할 수 있다는 효과가 있다.According to a preferred embodiment of the present invention, by further adding a manual operation handle to the surgical robot equipped with the instrument, the human and the robot can perform the operation together efficiently, emergency in the remote surgery process using the surgical robot If a situation arises, the doctor next to the patient can directly operate the handle to perform the operation.
또한, 수술용 로봇을 사용하는 수술 교육 과정에서, 필요한 경우 또는 응급 상황의 경우에 피교육자의 로봇 조작을 무시하고 교육자가 직접 수동으로 핸들을 조작하거나, 그 반대로 피교육자의 수동 조작을 무시하고 교육자가 로봇을 조작할 수 있도록 함으로써 보다 인터랙티브(interactive)한 수술 교육이 이루어지도록 할 수 있다.In addition, in the course of surgical education using a surgical robot, the educator manually manipulates the handle by ignoring the trainee's robot operation if necessary or in case of an emergency, or vice versa. By enabling the operation of the training can be made more interactive (interactive) training.
도 1은 본 발명의 일 실시예에 따른 하이브리드 수술용 인스트루먼트를 나타낸 개념도.1 is a conceptual diagram showing a hybrid surgical instrument according to an embodiment of the present invention.
도 2는 본 발명의 다른 실시예에 따른 하이브리드 수술용 인스트루먼트를 나타낸 개념도.Figure 2 is a conceptual diagram showing a hybrid surgical instrument according to another embodiment of the present invention.
도 3은 본 발명의 일 실시예에 따른 핸들의 구조 및 그에 따른 인스트루먼트의 작동 상태를 나타낸 도면.Figure 3 is a view showing the structure of the handle according to an embodiment of the present invention and the operating state of the instrument accordingly.
도 4는 본 발명의 다른 실시예에 따른 핸들의 구조 및 그에 따른 인스트루먼트의 작동 상태를 나타낸 도면.Figure 4 is a view showing the structure of the handle and the operating state of the instrument according to another embodiment of the present invention.
도 5는 본 발명의 일 실시예에 따른 수술용 인스트루먼트의 수동조작용 핸들부재를 나타낸 개념도.5 is a conceptual view showing a manual operation handle member of the surgical instrument according to an embodiment of the present invention.
도 6은 본 발명의 일 실시예에 따른 하이브리드 수술 로봇용 어댑터를 나타낸 개념도.6 is a conceptual diagram showing an adapter for a hybrid surgical robot according to an embodiment of the present invention.
도 7은 본 발명의 일 실시예에 따른 하이브리드 수술용 로봇을 나타낸 개념도.7 is a conceptual diagram showing a hybrid surgical robot according to an embodiment of the present invention.
도 8은 본 발명의 일 실시예에 따른 하이브리드 수술용 로봇 시스템을 나타낸 구성도.Figure 8 is a block diagram showing a hybrid surgical robot system according to an embodiment of the present invention.
도 9는 본 발명의 일 실시예에 따른 수술용 로봇 제어방법을 나타낸 순서도.9 is a flow chart showing a surgical robot control method according to an embodiment of the present invention.
도 10은 본 발명의 다른 실시예에 따른 수술용 로봇 제어방법을 나타낸 순서도.10 is a flow chart showing a surgical robot control method according to another embodiment of the present invention.
본 발명은 다양한 변환을 가할 수 있고 여러 가지 실시예를 가질 수 있는 바, 특정 실시예들을 도면에 예시하고 상세한 설명에 상세하게 설명하고자 한다. 그러나, 이는 본 발명을 특정한 실시 형태에 대해 한정하려는 것이 아니며, 본 발명의 사상 및 기술 범위에 포함되는 모든 변환, 균등물 내지 대체물을 포함하는 것으로 이해되어야 한다. 본 발명을 설명함에 있어서 관련된 공지 기술에 대한 구체적인 설명이 본 발명의 요지를 흐릴 수 있다고 판단되는 경우 그 상세한 설명을 생략한다.As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.
제1, 제2 등의 용어는 다양한 구성요소들을 설명하는데 사용될 수 있지만, 상기 구성요소들은 상기 용어들에 의해 한정되어서는 안 된다. 상기 용어들은 하나의 구성요소를 다른 구성요소로부터 구별하는 목적으로만 사용된다. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.
본 출원에서 사용한 용어는 단지 특정한 실시예를 설명하기 위해 사용된 것으로, 본 발명을 한정하려는 의도가 아니다. 단수의 표현은 문맥상 명백하게 다르게 뜻하지 않는 한, 복수의 표현을 포함한다. 본 출원에서, "포함하다" 또는 "가지다" 등의 용어는 명세서상에 기재된 특징, 숫자, 단계, 동작, 구성요소, 부품 또는 이들을 조합한 것이 존재함을 지정하려는 것이지, 하나 또는 그 이상의 다른 특징들이나 숫자, 단계, 동작, 구성요소, 부품 또는 이들을 조합한 것들의 존재 또는 부가 가능성을 미리 배제하지 않는 것으로 이해되어야 한다.The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.
이하, 본 발명의 실시예를 첨부한 도면들을 참조하여 상세히 설명하기로 하며, 첨부 도면을 참조하여 설명함에 있어, 동일하거나 대응하는 구성 요소는 동일한 도면번호를 부여하고 이에 대한 중복되는 설명은 생략하기로 한다.Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and redundant description thereof will be omitted. Shall be.
도 1은 본 발명의 일 실시예에 따른 하이브리드 수술용 인스트루먼트를 나타낸 개념도이고, 도 2는 본 발명의 다른 실시예에 따른 하이브리드 수술용 인스트루먼트를 나타낸 개념도이며, 도 3은 본 발명의 일 실시예에 따른 핸들의 구조 및 그에 따른 인스트루먼트의 작동 상태를 나타낸 도면이며, 도 4는 본 발명의 다른 실시예에 따른 핸들의 구조 및 그에 따른 인스트루먼트의 작동 상태를 나타낸 도면이다. 도 1 내지 도 4를 참조하면, 로봇 암(3), 액츄에이터(5), 핸들(10), 인스트루먼트(20), 구동부(22), 구동자(23), 와이어(24), 샤프트(26), 이펙터(28)가 도시되어 있다.1 is a conceptual diagram showing a hybrid surgical instrument according to an embodiment of the present invention, Figure 2 is a conceptual diagram showing a hybrid surgical instrument according to another embodiment of the present invention, Figure 3 is an embodiment of the present invention 4 is a view showing the structure of the handle and the operating state of the instrument according to, and Figure 4 is a view showing the structure of the handle and the operating state of the instrument according to another embodiment of the present invention. 1 to 4, the robot arm 3, the actuator 5, the handle 10, the instrument 20, the driver 22, the driver 23, the wire 24, and the shaft 26. Effector 28 is shown.
본 실시예는 수술용 로봇에 장착되는 인스트루먼트에 수동조작을 위한 핸들(handle)을 장착함으로써, 로봇에 장착된 인스트루먼트를 수작업 수술 및 로봇 수술 겸용으로 활용할 수 있도록 한 것을 특징으로 한다. 이하, 본 실시예에서와 같이 수작업 수술 및 로봇 수술에 겸용으로 사용되는 인스트루먼트를 '하이브리드 수술용 인스트루먼트(hybrid surgical instrument)'로 명명하여 설명한다.This embodiment is characterized in that by mounting a handle (handle) for manual operation on the instrument mounted on the surgical robot, the instrument mounted on the robot can be used for both manual surgery and robot surgery. Hereinafter, the instrument used for both manual surgery and robotic surgery as in the present embodiment will be described as 'hybrid surgical instrument'.
하이브리드 수술용 인스트루먼트(20)는, 일반 수작업 수술에서처럼 의사가 직접 손으로 잡고 수술을 수행할 수도 있고, 로봇 암(3)에 장착하여 로봇으로 하여금 수술에 필요한 동작을 하도록 함으로써 로봇 수술을 수행하도록 할 수도 있다. 이하, 후술하는 실시예에서 사람이 핸들을 잡고 인스트루먼트(20)를 조작하는 것을 핸드헬드 컨트롤(handheld control), 로봇이 인스트루먼트(20)를 작동시키도록 하는 것을 로보틱 컨트롤(robotic control)이라 명명하여 설명한다.The hybrid surgical instrument 20 may be operated by a doctor by hand, as in general manual surgery, or may be mounted on the robot arm 3 to perform robot surgery by allowing the robot to perform a necessary operation. It may be. Hereinafter, in the embodiments to be described later, the human hand holding the handle and manipulating the instrument 20 is called a handheld control, and the robot causes the instrument 20 to operate by being called robotic control. Explain.
본 실시예에 따른 하이브리드 수술용 인스트루먼트(20)는, 본래 수술용 로봇에 장착되는 인스트루먼트에 수동조작용 핸들(10)을 추가적으로 설치하여, 로봇으로부터 생성, 전달되는 구동력에 의해서뿐만 아니라, 핸들(10)에 대한 사용자 조작에 의해서도 인스트루먼트(20)가 작동되도록 한 것을 특징으로 한다.In the hybrid surgical instrument 20 according to the present embodiment, the manual operation handle 10 is additionally installed on the instrument originally mounted on the surgical robot, and not only by the driving force generated and transmitted from the robot, but also the handle 10. It is characterized in that the instrument 20 is also operated by the user operation for the).
인스트루먼트(20)는 로봇 암(3)에 장착되는 구동부(22), 구동부(22)에 연결되는 샤프트(26), 및 샤프트(26)의 말단에 결합되는 이펙터(effector)(28)로 이루어지며, 도 1 및 도 2에 도시된 것처럼, 구동부(22)에 수동조작용 핸들(10)이 더 결합되어 있다.The instrument 20 is composed of a drive unit 22 mounted to the robot arm 3, a shaft 26 connected to the drive unit 22, and an effector 28 coupled to the end of the shaft 26, 1 and 2, the manual override handle 10 is further coupled to the drive unit 22.
로봇 암(3)에 장착된 구동부(22)는 로봇 암(3)으로부터 구동력을 전달받아 작동되는데, 구체적으로는 로봇 암(3)에 형성된 액츄에이터(5)와 구동부(22)에 설치된 구동자(23)가 서로 연결되도록 구동부(22)가 로봇 암(3)에 장착되며, 이 상태에서 액츄에이터(5)가 작동(회전, 왕복운동 등)되면 그에 맞물린 구동자(23)가 작동됨으로써 로봇에서 생성된 구동력이 인스트루먼트(20)로 전달된다. 구동자(23)가 액츄에이터(5)에 연결되는 방식은 기어 결합, 끼움 결합, 클러치 결합 등 구동자(23) 및 액츄에이터(5)의 형상 및 구조에 따라 다양한 방식으로 구현할 수 있다.The driving unit 22 mounted on the robot arm 3 is operated by receiving driving force from the robot arm 3, specifically, an actuator 5 formed on the robot arm 3 and a driver installed on the driving unit 22 ( The driving unit 22 is mounted on the robot arm 3 so that the 23 is connected to each other. When the actuator 5 is operated (rotation, reciprocation, etc.) in this state, the driver 23 engaged with the driving unit 23 is operated to generate the robot. Drive force is transmitted to the instrument (20). The manner in which the driver 23 is connected to the actuator 5 may be implemented in various ways depending on the shape and structure of the driver 23 and the actuator 5 such as gear coupling, fitting coupling, clutch coupling, and the like.
구동부(22)에는 일 방향으로 연장된 샤프트(26)가 결합되는데, 샤프트(26)는 그 말단에 이펙터(28)를 장착하여 이펙터(28)가 수술 부위까지 삽입되도록 하는 가이드 막대의 역할을 한다. 또한, 샤프트(26)의 내부에는 구동자(23)와 이펙터(28)를 서로 연결하는 복수의 와이어(24)가 수용되며, 따라서 샤프트(26)는 구동부(22)와 이펙터(28) 간의 동력전달 통로의 역할을 한다. 도 1 및 도 2에는 원통 막대 형상의 샤프트(26)가 도시되어 있으나, 전술한 역할을 수행할 수 있는 범위 내에서 다양한 형상 및 구조의 샤프트(26)가 사용될 수 있음은 물론이다.The drive unit 22 is coupled to the shaft 26 extending in one direction, the shaft 26 serves as a guide rod for mounting the effector 28 at its end to insert the effector 28 to the surgical site . In addition, a plurality of wires 24 for connecting the driver 23 and the effector 28 to each other are accommodated in the shaft 26, so that the shaft 26 is driven between the driving unit 22 and the effector 28. It acts as a transmission pathway. 1 and 2, although the cylindrical rod-shaped shaft 26 is shown, it is a matter of course that the shaft 26 of various shapes and structures can be used within a range capable of performing the above-described role.
예를 들어 구동자(23)와 이펙터(28)가 풀리 결합되는 경우, 샤프트(26) 내에는 풀리 와이어(24)가 수용된다. 이 경우, 이펙터(28)가 4 자유도로 움직인다고 할 때, 이펙터(28)의 4 부분에 각각 연결되는 4벌의 풀리 와이어(24)가 샤프트(26)를 거쳐 4개의 풀리 구조의 구동자(23)와 각각 연결된다. 따라서, 인스트루먼트(20)가 로봇 암(3)에 장착되면 액츄에이터(5)의 작동에 의해 구동자(23)가 작동되고, 이에 따라 구동자(23)에 풀리 결합된 와이어(24)에 의해 이펙터(28)의 각 부분이 움직임으로써 이펙터(28)가 수술에 필요한 동작을 하도록 할 수 있다.For example, when the driver 23 and the effector 28 are pulley coupled, the pulley wire 24 is received in the shaft 26. In this case, when the effector 28 moves in four degrees of freedom, four pulley wires 24 each connected to four portions of the effector 28 pass through the shaft 26 and the driver 23 of four pulley structures. ), Respectively. Accordingly, when the instrument 20 is mounted on the robot arm 3, the driver 23 is operated by the operation of the actuator 5, and thus the effector is driven by the wire 24 that is pulley-coupled to the driver 23. The movement of each part of 28 can cause the effector 28 to perform the operation required for surgery.
도 1 및 도 2와 같이 구동부(22)에 핸들(10)을 결합하고, 사용자가 핸들(10)을 조작함에 따라 구동부(22) 내에 설치된 구동자(23)가 작동되도록 할 경우, 구동자(23)는 액츄에이터(5)의 작동에 따라 작동되기도 하지만, 핸들(10)의 조작에 따라서도 작동될 수 있으며, 어느 경우든 구동자(23)의 작동에 따라 와이어(24)를 통해 구동력이 전달됨으로써 샤프트(26)의 말단에 결합된 이펙터(28)가 움직이게 된다. 즉, 와이어(24)에 의해 구동자(23)와 연결된 이펙터(28)는 로봇의 구동에 의해 또는 핸들(10)의 조작에 의해 작동될 수 있다.1 and 2, when the handle 10 is coupled to the driving unit 22 and the user operates the driver 23 installed in the driving unit 22 as the user manipulates the handle 10, the driver ( 23 may be operated according to the operation of the actuator 5, but may also be operated according to the operation of the handle 10, and in any case, driving force is transmitted through the wire 24 according to the operation of the driver 23. This causes the effector 28 coupled to the end of the shaft 26 to move. In other words, the effector 28 connected with the driver 23 by the wire 24 can be operated by the driving of the robot or by the manipulation of the handle 10.
인스트루먼트(20)가 로봇 암(3)에 장착된 상태에서도, 로봇 암(3)으로부터 인스트루먼트(20)로 전달되는 구동력을 차단해 놓으면 로봇 암(3)의 모터가 자유롭게 움직일 수 있게 되므로, 사람이 직접 핸들(10)을 조작하여 인스트루먼트(20)를 작동시켜 수동으로 수술을 수행할 수 있다. 이하, 인스트루먼트(20)가 로봇에 장착된 상태에서 수동으로 인스트루먼트(20)를 조작하는 것을 로컬 컨트롤(local control)로 명명하여 설명한다.Even when the instrument 20 is mounted on the robot arm 3, when the driving force transmitted from the robot arm 3 to the instrument 20 is interrupted, the motor of the robot arm 3 can move freely. By directly operating the handle 10, the instrument 20 can be operated to manually perform the surgery. Hereinafter, manually manipulating the instrument 20 while the instrument 20 is mounted on the robot will be described as a local control.
로봇 암(3)으로부터 인스트루먼트(20)로 전달되는 구동력을 차단하는 것은 다양한 방식으로 구현할 수 있는데, 예를 들어 수술용 로봇에 별도의 버튼을 설치하거나 핸들(10)의 특정 움직임을 미리 설정해 놓고, 버튼을 누르거나 핸들(10)이 설정된 대로 움직일 경우, 로봇의 메인 컨트롤러가 이를 감지하여 구동력을 생성하지 않도록 하거나 생성된 구동력이 로봇 암(3)으로 전달되지 않도록 할 수 있다. 이로써, 로봇 암(3)이 외력에 의해 자유롭게 움직이는 상태(free move)가 되도록 할 수 있다.Blocking the driving force transmitted from the robot arm 3 to the instrument 20 can be implemented in various ways, for example, by installing a separate button on the surgical robot or by setting a specific movement of the handle 10 in advance, When the button is pressed or the handle 10 moves as set, the main controller of the robot may detect this to prevent generating a driving force or may not allow the generated driving force to be transmitted to the robot arm 3. Thereby, the robot arm 3 can be made to move freely by external force.
한편, 수술용 로봇 암(3)은 소정의 회동 중심점, 예를 들면 인스트루먼트(20)는 말단부의 소정 위치에 해당하는 점을 중심으로 회동하도록 설계, 제어되는데, 이러한 가상의 중심점을 '원격중심' 또는 'RCM(remote center of motion)'이라 한다. 환자의 피부를 천공하고 이펙터(28)를 삽입하여 수행되는 로봇 수술의 경우 로봇 암(3)이 RCM 포인트를 중심으로 회동하도록 함으로써, 환자의 피부가 손상되지 않도록 하고 피부의 천공 부위를 최소화할 수 있다.Meanwhile, the surgical robot arm 3 is designed and controlled to rotate about a predetermined pivot center point, for example, the instrument 20 rotates around a point corresponding to a predetermined position of the distal end, and the virtual center point is 'remote center'. Or 'remote center of motion'. In the case of robot surgery performed by puncturing the patient's skin and inserting the effector 28, the robot arm 3 is rotated around the RCM point, thereby preventing the patient's skin from being damaged and minimizing the perforation of the skin. have.
본 실시예에 따른 인스트루먼트(20)를 로컬 컨트롤에 의해 조작할 때, 로봇 암(3) 및 그에 장착된 인스트루먼트(20)는 RCM 포인트를 중심으로 회동하므로, 사람이 직접 조작을 하더라도 인스트루먼트(20)가 RCM 포인트로부터 이탈하지 않고 안정적으로 움직이도록 할 수 있다. 즉, 핸들(10)을 상, 하, 좌, 우 방향으로 움직이면 RCM 포인트를 중심으로 인스트루먼트(20)의 단부(이펙터(28))가 하, 상, 우, 좌 방향으로 움직이게된다.When the instrument 20 according to the present embodiment is operated by local control, the robot arm 3 and the instrument 20 mounted thereon rotate around the RCM point, so that even if a person directly operates the instrument 20. Can move stably without departing from the RCM point. That is, when the handle 10 is moved in the up, down, left and right directions, the end portion (effector 28) of the instrument 20 moves in the bottom, up, right and left directions around the RCM point.
한편, 본 실시예에 따른 인스트루먼트(20)를 로봇 암(3)으로부터 분리하여 핸드헬드 컨트롤에 의해 조작할 때에는 종래의 수술 기구와 마찬가지로 작동되도록 할 수 있음은 물론이다.On the other hand, when the instrument 20 according to the present embodiment is separated from the robot arm 3 and operated by hand-held control, the instrument 20 can be operated similarly to a conventional surgical instrument.
본 실시예에 따른 핸들(10)은 이펙터(28)의 작동 자유도에 상응하는 자유도로 조작되도록 할 수 있다. 예를 들어 수동 조작용 수술 기구는 5자유도로, 수술용 로봇에 장착되는 인스트루먼트(20)는 7자유도로 움직이도록 설계, 제작될 수 있으며, 인스트루먼트(20)의 종류에 따라 단순히 그립(grip) 동작만이 가능하도록 할 수도 있고, 마치 손목처럼 상, 하, 좌, 우로 회동되도록 할 수도 있다.The handle 10 according to the present embodiment can be manipulated with a degree of freedom corresponding to the degree of freedom of operation of the effector 28. For example, the surgical instrument for manual operation may be designed and manufactured to move at 5 degrees of freedom, and the instrument 20 mounted on the surgical robot may move at 7 degrees of freedom, and may simply grip according to the type of the instrument 20. You can make it possible, or rotate it up, down, left, or right like a wrist.
따라서, 본 실시예에 따른 핸들(10)은, 이펙터(28)가 그립(grip) 동작을 하도록 핸들(10)에 그립퍼(gripper)를 설치하여, 그립퍼를 잡아당기거나 밀면 그에 따라 이펙터(28)가 그립 동작을 하도록 할 수 있다. 또한, 도 1에 도시된 것처럼, 핸들(10)과 샤프트(26)가 동일한 회전축을 중심으로 비틀리도록 구성함으로써, 핸들(10)의 비틀림 조작에 상응하여 샤프트(26)가 비틀리도록 할 수 있다. 나아가, 도 2에 도시된 것처럼, 핸들(10)과 샤프트(26)의 비틀림 축이 서로 다른 경우(도 2의 Z1축 및 Z2축 참조)에도 핸들(10)의 비틀림 조작(도 2의 Z1축 중심의 회전)에 상응하여 샤프트(26)가 비틀리도록(도 2의 Z2축 중심의 회전) 구성할 수도 있다. 이처럼, 핸들과 샤프트의 비틀림 조작에 관한 기술적 사상은 후술하는 실시예에도 적용될 수 있다.Thus, the handle 10 according to the present embodiment, by installing a gripper to the handle 10 so that the effector 28 is to grip (grip) operation, by pulling or pushing the gripper accordingly the effector 28 Allows the grip operation. In addition, as shown in FIG. 1, by configuring the handle 10 and the shaft 26 to be twisted about the same axis of rotation, the shaft 26 can be twisted corresponding to the twisting operation of the handle 10. Further, as shown in FIG. 2, even when the torsional axes of the handle 10 and the shaft 26 are different (see Z1 and Z2 axes in FIG. 2), the twisting operation of the handle 10 (Z1 axis in FIG. 2). The shaft 26 may be twisted (rotation around the Z 2 axis in FIG. 2) corresponding to the rotation of the center). As such, the technical idea of the twisting operation of the handle and the shaft may be applied to the embodiments described below.
또한, 핸들(10)을 상, 하, 좌, 우 방향으로 꺾으면 그에 따라 이펙터(28)도 하, 상, 우, 좌 방향으로 꺾이는 구조로 구현할 수 있다.In addition, when the handle 10 is bent in the up, down, left, and right directions, the effector 28 may be implemented in a bent direction in the bottom, up, right, and left directions.
이 외에도 핸들(10)에 대한 사용자 조작 방식 및 그에 따른 인스트루먼트(20)의 작동 방식은 다양하게 구현할 수 있는데, 예를 들어 손목 동작(wrist articulation)을 구현하기 위해, 도 3에 도시된 것처럼 핸들(10)을 회동가능한 구조로 제작하고 핸들(10) 자체를 회동시키는 방식, 도 4에 도시된 것처럼 핸들(10)에 조이스틱(도 4의 'J')과 같은 조작자를 형성하고, 엄지손가락 등으로 상, 하, 좌, 우 방향으로 밀어서 조작하는 방식 등에 의해 인스트루먼트(20) 및/또는 이펙터(28)의 손목 동작을 구현할 수 있다.In addition to this, a user manipulation method for the handle 10 and a method of operating the instrument 20 may be variously implemented. For example, to implement a wrist articulation, the handle ( 10) in a rotatable structure and the method of rotating the handle 10 itself, as shown in Figure 4 to form an operator, such as a joystick ('J' in Figure 4) on the handle 10, with a thumb or the like The wrist operation of the instrument 20 and / or the effector 28 may be implemented by a method of operating by pushing in the up, down, left, and right directions.
한편, 로봇에 장착되는 인스트루먼트(20)에 수동조작용 핸들(10)을 설치하여 핸드헬드 컨트롤 또는 로컬 컨트롤에 의해 조작하더라도, 수술을 수행하는 도중에 사람이 수행하기 어려운 동작이 필요한 경우가 있을 수 있다. 이 경우에는 다시 원래대로 로봇이 인스트루먼트(20)를 동작시키게 함으로써 사람의 능력을 보완하도록 할 수 있다. 이처럼, 사람에 의한 수동조작을 차단하고 로봇이 인스트루먼트(20)를 작동하도록 하는 것을, 이하, 리모트 컨트롤(remote control)이라 명명하여 설명한다.On the other hand, even if the manual operation handle 10 is installed on the instrument 20 mounted on the robot to operate by hand-held control or local control, there may be a case where an operation that is difficult for a human to perform during surgery is required. . In this case, the robot can be operated to compensate for the human ability by operating the instrument 20 again. As described above, blocking the manual operation by a person and causing the robot to operate the instrument 20 will be described below as a remote control.
또한, 경우에 따라서는 사람에 의한 수동조작만으로는 구동력이 부족한 경우가 있을 수 있으며, 이때에는 로봇 암(3)으로부터 전달되는 구동력의 도움으로 사람의 구동력을 증폭(power boost)시킬 수 있다. 예를 들어, 사람이 핸들(10)을 좌측으로 움직여 이펙터(28)가 RCM 포인트를 중심으로 회동하여 우측으로 움직이도록 의도할 경우, 센서가 핸들(10)의 좌측으로의 움직임을 감지하여 로봇의 메인 컨트롤러로 센싱 신호를 전송하고, 컨트롤러(9)는 센싱 신호를 받아 구동력을 생성하여, 이펙터(28)가 우측으로 회동하도록 로봇 암(3)을 통해 구동력을 전달하도록 할 수 있다.In addition, in some cases, the driving force may be insufficient only by manual operation by a person, and in this case, the driving force of the person may be amplified by the help of the driving force transmitted from the robot arm 3. For example, if a person moves the handle 10 to the left and the effector 28 intends to rotate about the RCM point and move to the right, the sensor detects the movement to the left of the handle 10 and the The sensing signal may be transmitted to the main controller, and the controller 9 may generate the driving force by receiving the sensing signal to transmit the driving force through the robot arm 3 so that the effector 28 rotates to the right.
이처럼, 사용자의 조작 의도를 센싱하여 그 의도대로 인스트루먼트(20)가 작동되도록 로봇에서 구동력을 생성, 전달하는 것을, 사용자 조작에 대한 '부스트업(boost-up) 기능'이라 한다. 부스트업 기능을 수행하기 위해서는 로봇의 메인 컨트롤러에 컴플라이언스 컨트롤(compliance control) 기법 등 당업자에게 자명한 다양한 제어 기법에 기반한 동작 제어 기능이 탑재되어야 하며, 여기에서는 그러한 제어 기법에 대한 상세한 설명은 생략한다.As such, sensing the user's operation intention and generating and transmitting a driving force in the robot to operate the instrument 20 according to the intention is referred to as a 'boost-up function' for the user's operation. In order to perform the boost-up function, the robot's main controller should be equipped with motion control functions based on various control techniques known to those skilled in the art, such as compliance control techniques, and a detailed description thereof will be omitted.
이하, 전술한 부스트업 기능과 같이 사람에 의한 수동조작 중에 로봇이 개입하여 인스트루먼트(20)가 작동되도록 하도록 하는 것을, 하이브리드 컨트롤(hybrid control)이라 명명하여 설명한다.Hereinafter, as described above, the robot is to be intervened to operate the instrument 20 during a manual operation by a human like the above-described boost-up function, which will be described as hybrid control.
이상으로, 수술용 로봇에 장착되는 인스트루먼트(20)에 수동조작용 핸들(10)을 설치하여 다양한 방식의 작동시키는 경우에 대하여 설명하였다. 다만, 수동조작용 핸들(10)이 반드시 인스트루먼트(20)에만 설치되어야 하는 것은 아니며, 다른 실시예에 대하여는 이하 도 5 및 도 6을 참조하며 상세하게 설명한다.As described above, the case in which the manual operation handle 10 is installed in the instrument 20 mounted on the surgical robot to operate in various manners has been described. However, the manual operation handle 10 is not necessarily installed only on the instrument 20, and other embodiments will be described in detail with reference to FIGS. 5 and 6 below.
도 5는 본 발명의 일 실시예에 따른 수술용 인스트루먼트의 수동조작용 핸들부재를 나타낸 개념도이다. 도 5를 참조하면, 로봇 암(3), 액츄에이터(5), 핸들(10), 핸들부재(12), 제2 구동부(14), 제2 구동자(15), 인스트루먼트(20), 제1 구동부(22), 제1 구동자(23), 와이어(24), 샤프트(26), 이펙터(28)가 도시되어 있다.5 is a conceptual view showing a manual operation handle member of the surgical instrument according to an embodiment of the present invention. Referring to FIG. 5, the robot arm 3, the actuator 5, the handle 10, the handle member 12, the second driver 14, the second driver 15, the instrument 20, and the first The driver 22, the first driver 23, the wire 24, the shaft 26, and the effector 28 are shown.
본 실시예는 수동조작용 핸들(10)을 별도의 부재, 즉 핸들부재(12)의 형태로 제작하고, 이를 인스트루먼트(20)에 장착하여 인스트루먼트(20)가 수동으로도 조작되도록 한 것이다. 즉, 도 5에 도시된 것처럼, 별도의 핸들부재(12)를 제작하여 로봇 암(3)에 장착되는 인스트루먼트(20)의 구동부(제1 구동부(22))의 반대면에 결합시켜 사용할 수 있다.In the present embodiment, the manual operation handle 10 is manufactured in the form of a separate member, that is, the handle member 12, and is mounted on the instrument 20 so that the instrument 20 can be manually operated. That is, as illustrated in FIG. 5, a separate handle member 12 may be manufactured and coupled to an opposite surface of the driving unit (first driving unit 22) of the instrument 20 mounted on the robot arm 3. .
이와 같이 인스트루먼트(20)에 별도의 핸들부재(12)를 결합하고 핸들(10)을 수동으로 조작함으로써, 전술한 핸드헬드 컨트롤에 의해 인스트루먼트(20)를 조작할 수 있으며, 또한, 인스트루먼트(20)가 로봇 암(3)에 장착된 상태에서도 인스트루먼트(20)에 핸들부재(12)를 결합하고 핸들(10)을 수동으로 조작함으로써, 전술한 로컬 컨트롤 및/또는 하이브리드 컨트롤에 의해 인스트루먼트(20)를 조작할 수 있다.In this way, by coupling the handle member 12 to the instrument 20 and manually operating the handle 10, the instrument 20 can be operated by the above-described handheld control, and the instrument 20 Couples the handle member 12 to the instrument 20 and manually operates the handle 10 even when the robot arm 3 is mounted on the robot arm 3, thereby controlling the instrument 20 by the aforementioned local control and / or hybrid control. I can operate it.
한편, 사람에 의한 수동조작을 차단하고 로봇이 인스트루먼트(20)를 작동하도록 하는 리모트 컨트롤 상태일 때에는, 수동조작용 핸들(10)이 필요 없으므로 핸들부재(12)를 분리해 놓을 수도 있다.On the other hand, when the manual operation by the person is blocked and the robot is in the remote control state to operate the instrument 20, since the manual operation handle 10 is not necessary, the handle member 12 may be separated.
이처럼, 수동조작용 핸들(10)을 별도의 부재로 제작하여 인스트루먼트(20)에 탈착가능하도록 결합하여 사용함으로써, 로봇에 장착되는 인스트루먼트(20)는 핸들부재(12)와의 커플링(coupling) 구조만 추가하여 종래와 동일하게 제작할 수 있어, 인스트루먼트(20) 제작비용이 크게 증가하지 않고, 외관상 로봇 전용 인스트루먼트(20)와 별 차이 없이 인스트루먼트(20)를 제작할 수 있다.As such, by using the manual operation handle 10 as a separate member to be detachably coupled to the instrument 20, the instrument 20 mounted on the robot is coupled to the handle member 12 (coupling) structure Only by adding it can be manufactured in the same manner as in the prior art, the manufacturing cost of the instrument 20 does not significantly increase, and the instrument 20 can be manufactured without any difference from the robot-specific instrument 20 in appearance.
도 5를 참조하여 본 실시예에 따른 핸들부재(12) 및 인스트루먼트(20)의 작동에 관하여 설명하면, 핸들부재(12)는 제2 구동부(14)와, 그에 결합되는 핸들(10)로 이루어지는데, 제2 구동부(14)를 제1 구동부(22)에 결합함으로써, 핸들부재(12)가 인스트루먼트(20)에 장착된다.Referring to Figure 5 with respect to the operation of the handle member 12 and the instrument 20 according to this embodiment, the handle member 12 is composed of a second drive unit 14, the handle 10 coupled thereto. The handle member 12 is mounted to the instrument 20 by coupling the second drive unit 14 to the first drive unit 22.
핸들부재(12)는, 사용자가 핸들(10)을 조작함에 따라 제2 구동부(14), 보다 구체적으로는 제2 구동부(14)에 설치된 제2 구동자(15)가 작동되는 구조로 구성되는데, 제1 구동부(22)에 제2 구동부(14)를 장착하고 핸들(10)을 조작하여 제2 구동부(14)를 작동시킴으로써, 제1 구동부(22)에 구동력이 전달되어 인스트루먼트(20)가 작동되게 된다.The handle member 12 has a structure in which the second driver 14, more specifically, the second driver 15 installed in the second driver 14, is operated as the user manipulates the handle 10. By mounting the second driving unit 14 to the first driving unit 22 and operating the second driving unit 14 by operating the handle 10, the driving force is transmitted to the first driving unit 22 so that the instrument 20 It will work.
인스트루먼트(20)의 구조는 전술한 실시예와 동일하며, 다만 구동부에 핸들부재(12)를 장착하여 작동하기 위한 구조가 형성되어 있다. 즉, 도 5에 도시된 것처럼, 제1 구동부(22)의 일면이 로봇 암(3)에 장착된다고 할 때, 제1 구동부(22)의 타면에는 핸들부재(12)를 장착하기 위한 결합 기구(機構)가 형성되고, 여기에 제2 구동부(14)를 장착함으로써 인스트루먼트(20)를 수동으로 조작할 수 있게 되는 것이다.The structure of the instrument 20 is the same as the above-described embodiment, except that the structure for operating by mounting the handle member 12 to the drive unit is formed. That is, as shown in FIG. 5, when one surface of the first driving unit 22 is mounted to the robot arm 3, a coupling mechanism for mounting the handle member 12 on the other surface of the first driving unit 22 ( A mechanism is formed, and by attaching the second drive unit 14 to it, the instrument 20 can be operated manually.
다만, 제1 구동부(22)의 '타면'은 반드시 로봇 암(3)에 장착되는 면의 반대측 면을 의미하는 것은 아니며, 로봇 암(3)에 장착되는 면 이외의 면을 모두 포함하는 것으로서, 본 실시예에 따른 핸들부재(12)는 제1 구동부(22)의 어느 쪽 면에도 결합될 수 있음은 물론이다.However, the 'other surface' of the first driving unit 22 does not necessarily mean a surface opposite to the surface mounted on the robot arm 3, and includes all surfaces other than the surface mounted on the robot arm 3, Of course, the handle member 12 according to the present embodiment may be coupled to either side of the first driving unit 22.
제1 구동부(22)에는 로봇 암(3)의 액츄에이터(5)에 맞물려 작동되는 제1 구동자(23)가 설치되는데, 도 5에 도시된 것처럼 제1 구동자(23)는 핸들부재(12)가 결합되는 면으로도 노출되어 있다. 따라서, 제1 구동부(22)에 제2 구동부(14)를 결합하여 제2 구동부(14)에 설치된 제2 구동자(15)가 제1 구동자(23)에 맞물리도록 함으로써, 제1 구동자(23)는 액츄에이터(5)뿐만 아니라, 핸들(10)에 대한 사용자 조작에 의해서도 작동되게 된다. 제1 구동자(23)와 제2 구동자(15) 간의 연결 방식은, 액츄에이터(5)와 제1 구동자(23) 간의 연결 방식과 마찬가지로 다양한 방식으로 구현될 수 있음은 물론이다.The first driver 22 is provided with a first driver 23 engaged with the actuator 5 of the robot arm 3, and as shown in FIG. 5, the first driver 23 includes a handle member 12. ) Is also exposed to the side where it is combined. Accordingly, the first driver is engaged by coupling the second driver 14 to the first driver 22 so that the second driver 15 installed in the second driver 14 meshes with the first driver 23. 23 is operated not only by the actuator 5 but also by user operation with respect to the handle 10. The connection method between the first driver 23 and the second driver 15 may be implemented in various ways as in the connection method between the actuator 5 and the first driver 23.
한편, 제2 구동부(14)가 제1 구동부(22)에 장착된 상태에서, 전술한 바와 같이 리모트 컨트롤 상태 등의 경우에는 핸들부재(12)를 분리해 놓을 수도 있는데, 이처럼 핸들부재(12)가 분리될 경우 제1 구동부(22)의 내부 구조(예를 들면, 제1 구동자(23))가 노출될 우려가 있으며, 이때에는 제1 구동부(22)의 타면, 즉 핸들부재(12)가 결합되어 있던 면에 별도의 커버 부재를 결합시켜 제1 구동부(22)를 보호할 수 있다.On the other hand, in the state in which the second drive unit 14 is mounted on the first drive unit 22, as described above, in the case of the remote control state or the like, the handle member 12 may be separated, but the handle member 12 When is separated, the internal structure of the first drive unit 22 (for example, the first driver 23) may be exposed, in this case the other side of the first drive unit 22, that is, the handle member 12 The first driving unit 22 may be protected by attaching a separate cover member to the surface to which the is coupled.
이상과 같이, 별도의 핸들부재(12)를 제작하여 사용할 경우, 수동조작용 핸들(10)이 필요한 경우에만 핸들부재(12)를 인스트루먼트(20)에 장착해서 사용할 수 있으므로, 인스트루먼트(20)의 전체 부피가 늘어나지 않으며, 수술 과정에서의 필요, 사용자의 취향, 가격대 등 다양한 수요를 충족하도록 여러 종류의 수동조작용 핸들부재(12)를 제작하여 사용할 수 있다.As described above, when the separate handle member 12 is manufactured and used, since the handle member 12 can be mounted and used on the instrument 20 only when the manual operation handle 10 is required, the instrument 20 The total volume does not increase, it can be used to produce a variety of manual operation handle member 12 to meet a variety of needs, such as the need in the surgical process, the user's taste, price.
도 6은 본 발명의 일 실시예에 따른 하이브리드 수술 로봇용 어댑터를 나타낸 개념도이다. 도 6을 참조하면, 로봇 암(3), 액츄에이터(5), 핸들(10), 어댑터(16), 제1 구동부(18), 제1 구동자(19), 인스트루먼트(20), 제2 구동부(22), 제2 구동자(23), 와이어(24), 샤프트(26), 이펙터(28)가 도시되어 있다.6 is a conceptual diagram showing an adapter for a hybrid surgical robot according to an embodiment of the present invention. Referring to FIG. 6, the robot arm 3, the actuator 5, the handle 10, the adapter 16, the first driver 18, the first driver 19, the instrument 20, and the second driver 22, second driver 23, wire 24, shaft 26, effector 28 are shown.
본 실시예는 인스트루먼트(20)를 로봇 암(3)에 장착하기 위해 그 사이에 개재되는 멸균 어댑터(sterile adapter)에 핸들(10)을 설치함으로써 하이브리드 수술 로봇용 어댑터(16)로서 사용한 사례이다.This embodiment is an example used as a hybrid surgical robot adapter 16 by installing a handle 10 to a sterile adapter interposed therebetween to mount the instrument 20 to the robot arm 3.
즉, 인스트루먼트(20)에 직접 핸들(10)을 장착하거나, 별도의 핸들부재(12)를 제작하는 대신 인스트루먼트(20)와 로봇 암(3)을 연결하는 부위에 사용되는 멸균 어댑터(16)에 수동조작용 핸들 기능을 포함시킨 것이다. 이처럼, 멸균 어댑터(16)에 핸들(10)을 장착하여 사용하면 각 인스트루먼트(20)마다 직접 핸들(10)을 장착하지 않아도 되므로 비용을 절감할 수 있다.That is, instead of mounting the handle 10 directly to the instrument 20, or to manufacture a separate handle member 12 to the sterile adapter 16 used in the site for connecting the instrument 20 and the robot arm 3 It includes a manual steering wheel function. As such, when the handle 10 is mounted on the sterilizing adapter 16, the handle 10 does not need to be directly mounted for each instrument 20, thereby reducing the cost.
본 실시예에 따른 하이브리드 수술 로봇용 어댑터(16)는, 로봇 암(3)에 인스트루먼트(20)를 장착하는 과정에서 그 사이에 개재되는 어댑터(16)로서, 구동부(제1 구동부(18))와 제1 구동부(18)에 결합되는 핸들(10)로 이루어지는데, 제1 구동부(18)를 로봇 암(3)에 장착하고, 인스트루먼트(20)의 구동부(제2 구동부(22))를 제1 구동부(18)에 결합함으로써, 어댑터(16)가 인스트루먼트(20)와 로봇 암(3) 사이에 개재된다.The hybrid surgical robot adapter 16 according to the present embodiment is an adapter 16 interposed therebetween in the process of mounting the instrument 20 on the robot arm 3, and includes a driving unit (first driving unit 18). And a handle 10 coupled to the first drive unit 18, wherein the first drive unit 18 is mounted on the robot arm 3, and the drive unit (second drive unit 22) of the instrument 20 is first mounted. By coupling to one drive 18, an adapter 16 is interposed between the instrument 20 and the robot arm 3.
기본적으로, 제1 구동부(18)는 로봇 암(3)의 액츄에이터(5)에 결합되어 액츄에이터(5)의 작동에 따라 제1 구동자(19)가 작동되는 방식으로 로봇 암(3)으로부터 구동력을 전달받는다. 또한, 어댑터(16)는 사용자가 핸들(10)을 조작함에 따라 제1 구동부(18), 보다 구체적으로는 제1 구동부(18)에 설치된 제1 구동자(19)가 작동되는 구조로 구성되는데, 제1 구동부(18)에 제2 구동부(22)를 장착하고 핸들(10)을 조작하여 제1 구동자(19)를 작동시킴으로써, 제2 구동부(22)에 설치된 제2 구동자(23)가 작동되어 인스트루먼트(20)가 수동 조작으로도 작동될 수 있게 된다.Basically, the first driver 18 is coupled to the actuator 5 of the robot arm 3 so that the driving force from the robot arm 3 is driven in such a way that the first driver 19 is operated in accordance with the operation of the actuator 5. Received. In addition, the adapter 16 has a structure in which the first driver 18, more specifically, the first driver 19 installed in the first driver 18 is operated as the user manipulates the handle 10. By mounting the second driver 22 to the first driver 18 and manipulating the handle 10 to operate the first driver 19, the second driver 23 installed in the second driver 22. Is activated so that the instrument 20 can also be operated by manual operation.
본 실시예에서는 로봇 암(3)과 인스트루먼트(20) 사이에 어댑터(16)를 개재시켜 수동조작이 가능하도록 한 것으로, 로봇 암(3)으로부터든 핸들(10)의 조작에 의해서든 구동력을 전달받아 작동되는 인스트루먼트(20)는, 어댑터(16)에 장착될 수 있는 구조인 범위 내에서 종래와 동일한 구조로 제작될 수도 있다.In this embodiment, the manual operation is possible by interposing the adapter 16 between the robot arm 3 and the instrument 20. The driving force is transmitted from the robot arm 3 or by the operation of the handle 10. The instrument 20 that is operated by receiving may be manufactured in the same structure as in the prior art within the range that can be mounted on the adapter 16.
이처럼 어댑터(16)에 수동 조작 기능을 부가할 경우, 제1 구동부(18)의 한 쪽 면은 로봇 암(3)에 장착되고 제1 구동부(18)의 다른 쪽 면에는 제2 구동부(22)가 장착될 수 있으며, 이로써, 본 실시예에 따른 어댑터(16)는 로봇 암(3)과 인스트루먼트(20) 사이에 개재되어 인스트루먼트(20)를 수동으로 조작하기 위한 핸들(10)로서 기능하게 된다.When the manual operation function is added to the adapter 16 as described above, one side of the first driving unit 18 is mounted to the robot arm 3 and the second driving unit 22 is mounted on the other side of the first driving unit 18. In this way, the adapter 16 according to the present embodiment is interposed between the robot arm 3 and the instrument 20 to function as a handle 10 for manually manipulating the instrument 20. .
전술한 바와 같이, 본 실시예에 따른 어댑터(16)는 별도로 제작할 수도 있으나, 본래 수술용 로봇에 장착되는 멸균 어댑터에 핸들(10)을 부가하는 방식으로 제작될 수도 있으며, 따라서, 핸들(10)이 장착된 수동조작용 멸균 어댑터(16)를 별도로 제작해 두었다가 일반적인 로봇 수술의 경우에는 기존의 멸균 어댑터를 사용하다가, 수동 조작이 부가된 하이브리드 수술을 수행할 경우에는 기존 멸균 어댑터를 수동조작용 멸균 어댑터(16)로 교체하여 사용할 수 있다.As described above, the adapter 16 according to the present embodiment may be manufactured separately, but may also be manufactured by adding the handle 10 to the sterile adapter originally mounted on the surgical robot, and thus, the handle 10 This manually operated sterilization adapter 16 is manufactured separately, and in the case of general robot surgery, the conventional sterilization adapter is used, and in the case of performing hybrid surgery with manual manipulation, the conventional sterilization adapter is manually operated sterilization. The adapter 16 can be used as a replacement.
도 7은 본 발명의 일 실시예에 따른 하이브리드 수술용 로봇을 나타낸 개념도이다. 도 7을 참조하면, 로봇 암(3) 액츄에이터(5), 핸들(10), 인스트루먼트(20), 구동부(22), 구동자(23), 와이어(24), 샤프트(26), 이펙터(28)가 도시되어 있다.7 is a conceptual diagram illustrating a hybrid surgical robot according to an embodiment of the present invention. Referring to FIG. 7, the robot arm 3 actuator 5, the handle 10, the instrument 20, the driver 22, the driver 23, the wire 24, the shaft 26, and the effector 28. ) Is shown.
이상으로, 수술용 로봇에 수동조작용 핸들(10)을 부가하는 방식으로서, 인스트루먼트(20)에 핸들(10)을 부가하는 방식, 별도의 핸들부재(12)를 제작하여 장착하는 방식, 멸균 어댑터(16)에 핸들(10)을 부가하는 방식에 대해 설명하였다. 나아가, 본 실시예에 따른 수동조작용 핸들(10)은, 도 7에 도시된 것처럼, 로봇 암(3)에 직접 부가할 수도 있다.As described above, a method of adding the manual operation handle 10 to the surgical robot, a method of adding the handle 10 to the instrument 20, a method of manufacturing and mounting a separate handle member 12, a sterile adapter The manner of adding the handle 10 to 16 has been described. Furthermore, the manual override handle 10 according to this embodiment may be added directly to the robot arm 3, as shown in FIG. 7.
로봇 암(3) 자체에 수동조작용 핸들(10)을 추가로 설치할 경우, 인스트루먼트(20)나 멸균 어댑터의 구조를 변경할 필요 없이, 기존의 인스트루먼트(20)나 멸균 어댑터(16)를 장착하고도 하이브리드 수술용 로봇으로서 사용할 수 있다는 장점이 있다.When the manual arm 10 is additionally installed on the robot arm 3 itself, the existing instrument 20 or the sterile adapter 16 may be installed without changing the structure of the instrument 20 or the sterile adapter. The advantage is that it can be used as a hybrid surgical robot.
즉, 본 실시예에 따라 로봇 암(3)에 핸들(10)을 설치할 경우, 핸들(10)은 로봇 암(3)의 선단부, 즉 로봇 암(3)에 인스트루먼트(20)가 장착되는 부위에 형성되는 액츄에이터(5)에 연결되어 핸들(10)을 사용자가 조작함에 따라 액츄에이터(5)가 작동되는 구조로 구성될 수 있다.That is, when the handle 10 is installed on the robot arm 3 according to the present embodiment, the handle 10 is located at the tip end of the robot arm 3, that is, the site where the instrument 20 is mounted on the robot arm 3. The actuator 5 may be configured to be connected to the actuator 5 to be formed and operate the actuator 10 as the user manipulates the handle 10.
이로써, 로봇 암(3)에 형성되는 액츄에이터(5)는 로봇으로부터 생성, 전송되는 제어 신호에 의해 구동되거나, 액츄에이터(5)에 연결된 핸들(10)에 대한 사용자 조작에 의해 작동될 수 있다. 이와 같이 로봇 암(3)에 핸들(10)을 설치할 경우, 로봇 암(3)에 장착되는 멸균 어댑터 및 인스트루먼트는 기존과 동일한 구조로 이루어질 수 있음은 전술한 바와 같다.In this way, the actuator 5 formed on the robot arm 3 may be driven by a control signal generated and transmitted from the robot, or may be operated by a user operation on the handle 10 connected to the actuator 5. As described above, when the handle 10 is installed on the robot arm 3, the sterilizing adapter and the instrument mounted on the robot arm 3 may have the same structure as the conventional structure.
한편, 로봇 암(3)에 설치된 핸들(10)에는 전술한 부스트업 기능이 구현될 수 있는데, 즉, 핸들(10)의 초기 조작 내용을 센싱하는 등의 방법으로 사용자가 핸들(10)을 어떤 방식으로 조작할 것인지에 대한 의도를 파악하여 인스트루먼트(20)가 사용자가 의도한대로 움직이도록 구동력을 생성, 전송하여 액츄에이터(5)가 구동되도록 할 수 있다.Meanwhile, the above-described boost-up function may be implemented in the handle 10 installed in the robot arm 3, that is, the user may not recognize the handle 10 by a method such as sensing an initial operation of the handle 10. By grasping the intention to operate in a manner, the actuator 20 can be driven by generating and transmitting a driving force so that the instrument 20 moves as intended by the user.
전술한, 및/또는 후술하는 수술용 로봇에는 핸들(10)의 초기 조작 내용을 감지하여 센싱 신호를 출력하는 센서부(7)와, 센싱 신호에 따라 구동력을 생성하여 로봇 암(3)을 통해 인스트루먼트(20)에 구동력이 전달되도록 제어하는 컨트롤러(9)가 설치될 수 있다.The surgical robot described above and / or described later includes a sensor unit 7 that detects an initial operation of the handle 10 and outputs a sensing signal, and generates a driving force according to the sensing signal to generate a driving force through the robot arm 3. The controller 9 may be installed to control the driving force to be transmitted to the instrument 20.
센서부(7)에는 핸들(10)에 설치되는 접촉 센서, 가속도 센서, 적외선 센서 등 다양한 종류의 센서가 포함될 수 있으며, 컨트롤러(9)는 별도의 마이크로프로세서로 구현되거나 수술용 로봇의 메인 컨트롤러의 일부 모듈의 형태로 구현될 수도 있다.The sensor unit 7 may include various types of sensors, such as a contact sensor, an acceleration sensor, and an infrared sensor installed on the handle 10, and the controller 9 may be implemented as a separate microprocessor or a main controller of a surgical robot. It may be implemented in the form of some module.
도 8은 본 발명의 일 실시예에 따른 하이브리드 수술용 로봇 시스템을 나타낸 구성도이다. 도 8을 참조하면, 로봇 암(3), 센서부(7), 컨트롤러(9), 핸들(10), 인스트루먼트(20)가 도시되어 있다.Figure 8 is a block diagram showing a hybrid surgical robot system according to an embodiment of the present invention. Referring to FIG. 8, a robot arm 3, a sensor unit 7, a controller 9, a handle 10, and an instrument 20 are shown.
본 실시예는 수동조작용 핸들(10)을 추가적으로 설치하여 하이브리드 수술을 수행하기 위한 수술용 로봇 시스템에 관한 것으로, 전체 로봇 시스템은 로봇 암(3), 로봇 암(3)에 장착되는 인스트루먼트(20), 그리고 로봇 시스템에 추가된 핸들(10)로 이루어지며, 인스트루먼트(20)는 로봇 암(3)으로부터 구동력을 전달받아 작동되거나, 사용자가 조작하는 핸들(10)로부터 구동력을 전달받아 작동될 수 있다.The present embodiment relates to a surgical robot system for performing a hybrid surgery by additionally installing a manual operation handle 10, the entire robot system is mounted on the robot arm (3), robot arm (3) (20) And the handle 10 added to the robot system, the instrument 20 may be operated by receiving a driving force from the robot arm 3, or may be operated by receiving a driving force from the handle 10 manipulated by a user. have.
핸들(10)의 결합은, 전술한 실시예에서처럼, 인스트루먼트(20)에 결합되거나, 로봇 암(3)에 직접 결합되거나, 별도의 핸들부재(12)로 제작되어 인스트루먼트(20)에 장착되거나, 멸균 어댑터(16)에 결합되는 등 수술용 로봇 시스템을 수동으로 조작할 수 있는 범위 내에서 다양한 위치 및 방식으로 결합될 수 있다. 수술용 로봇 시스템을 구성하는 장치들 중, 핸들(10)이 설치되지 않는 장치는 기존과 동일한 구조로 이루어질 수 있다.Coupling of the handle 10, as in the above-described embodiment, is coupled to the instrument 20, directly to the robot arm 3, or made of a separate handle member 12 mounted on the instrument 20, It can be coupled in a variety of positions and manners within the range of manual manipulation of the surgical robot system, such as coupled to sterile adapter 16. Among the devices constituting the surgical robot system, the device in which the handle 10 is not installed may have the same structure.
또한, 본 실시예에 따른 수술용 로봇 시스템은, 사용자에 의한 핸들(10)의 조작을 부스트업하는 기능을 구비할 수 있는데, 이를 위해 사용자가 핸들(10)을 조작한 내용을 센싱하는 센서부(7)가 더 설치될 수 있으며, 시스템을 제어하는 컨트롤러(9)에 의해 센싱된 신호의 입력, 처리 및 그에 따라 부스트업 기능을 수행하기 위한 구동력의 제어가 수행될 수 있다.In addition, the surgical robot system according to the present embodiment may have a function of boosting the operation of the handle 10 by the user, for this purpose, the sensor unit for sensing the content of the user operating the handle 10 (7) can be further installed, and the input, processing of the signal sensed by the controller 9 for controlling the system, and control of the driving force for performing the boost-up function accordingly can be performed.
도 9는 본 발명의 일 실시예에 따른 수술용 로봇 제어방법을 나타낸 순서도이다. 본 실시예는 전술한 수술용 로봇을 사용하여 수동 조작에 의한 수술 및 로봇에 의한 수술이 함께 이루어지도록 하는 로봇 제어방법이다.9 is a flow chart showing a surgical robot control method according to an embodiment of the present invention. This embodiment is a robot control method for performing the surgery by the manual operation and the operation by the robot using the above-described surgical robot.
본 실시예에 의한 수술용 로봇의 제어 모드는 크게, 사람이 손으로 핸들(10)을 잡고 인스트루먼트(20)를 조작하는 상태인 핸드헬드 컨트롤 모드(handheld control mode)와, 로봇이 인스트루먼트(20)를 작동시키도록 어떤 형태로든 개입하고 있는 상태인 로보틱 컨트롤 모드(robotic control mode)로 구분할 수 있다.The control mode of the surgical robot according to the present embodiment is largely a handheld control mode in which a person operates the instrument 20 while holding the handle 10 by hand, and the robot 20 is an instrument 20. It can be classified into robotic control mode, which is in some form of intervention.
로보틱 컨트롤 모드에는, 첫째 인스트루먼트(20)가 로봇에 장착된 상태에서 수동으로 인스트루먼트(20)를 조작하는 상태인 로컬 컨트롤 모드(local control mode), 둘째 사람에 의한 수동조작을 차단하고 로봇이 인스트루먼트(20)를 작동하도록 하는 상태인 리모트 컨트롤 모드(remote control mode), 셋째 부스트업 기능과 같이 사람에 의한 수동조작 중에 로봇이 개입하여 인스트루먼트(20)가 작동되도록 하도록 하는 상태인 하이브리드 컨트롤 모드(hybrid control mode)가 해당될 수 있다.In the robotic control mode, the local control mode in which the instrument 20 is operated manually while the first instrument 20 is mounted on the robot, the manual operation by the second person is blocked, and the robot is instrumented. Hybrid control mode (hybrid) in which the robot 20 intervenes during manual operation by a human, such as a remote control mode in which the robot 20 is operated, and a third boost-up function. control mode) may correspond.
본 실시예에 따른 수술용 로봇 제어방법은 기본적으로, 핸들(10) 및/또는 별도로 구비된 스위치 등을 사용자가 조작하는 것을 감지함으로써 출력되는 센싱 신호를 입력받고(S10), 그 센싱 신호에 따라 로봇이 다양한 제어 모드에 맞도록 구동되도록 구동력의 생성 및 전달을 제어하는(S20) 프로세스로 구성될 수 있다.Surgical robot control method according to the present embodiment, basically, by sensing the user's manipulation of the handle 10 and / or a switch provided separately, such as to receive a sensing signal output (S10), according to the sensing signal The robot may be configured as a process of controlling generation and transmission of driving force to be driven to suit various control modes (S20).
예를 들어, 센싱 신호가 로컬 컨트롤 모드, 즉 로봇에 인스트루먼트(20)가 장착되어 있기는 하지만 구동되지 않고 사람이 수동조작용 핸들(10)을 조작하여 인스트루먼트(20)를 직접 조작하고자 하는 상태로 판단될 경우, 로봇의 메인 컨트롤러는 로봇 암(3)으로부터 인스트루먼트(20)에 전달되는 구동력을 차단하고(S22), 인스트루먼트(20)가 사용자의 조작에 의하여만 움직이도록 할 수 있다. 다만, 이러한 경우에도 로봇 암(3)은 RCM 포인트를 중심으로 회동하게 되는 등, 로봇 자체의 설계적, 기계적 구속이 인스트루먼트(20)의 조작에 반영되도록 할 수 있음은 전술한 바와 같다.For example, the sensing signal is in a local control mode, i.e., although the instrument 20 is mounted on the robot, but is not driven, the human body manipulates the manual control handle 10 to directly manipulate the instrument 20. If it is determined, the main controller of the robot may block the driving force transmitted from the robot arm 3 to the instrument 20 (S22), and allow the instrument 20 to move only by a user's manipulation. However, even in this case, the robot arm 3 may rotate about the RCM point, such that the design and mechanical constraints of the robot itself may be reflected in the manipulation of the instrument 20 as described above.
또한, 센싱 신호가 리모트 컨트롤 모드, 즉 로봇에서 인스트루먼트(20)를 작동시키고, 수동조작용 핸들(10)의 조작에 의해서는 인스트루먼트(20)가 조작되지 않는 상태로 판단될 경우, 로봇의 메인 컨트롤러는 핸들(10)로부터 인스트루먼트(20)에 전달되는 구동력을 차단하고(S24), 인스트루먼트(20)가 로봇의 조작에 의하여만 움직이도록 할 수 있다.In addition, when the sensing signal is operating in the remote control mode, that is, the instrument 20 in the robot, and it is determined that the instrument 20 is not operated by the manual operation handle 10, the main controller of the robot Blocks the driving force transmitted from the handle 10 to the instrument 20 (S24), the instrument 20 can be moved only by the operation of the robot.
로봇 암(3)과 인스트루먼트(20) 간 및/또는 핸들(10)과 인스트루먼트(20) 간의 구동력을 차단하는 메커니즘은 다양한 방식으로 구현될 수 있으며, 여기에서는 이에 대한 상세한 설명은 생략한다.Mechanisms for blocking the driving force between the robot arm 3 and the instrument 20 and / or between the handle 10 and the instrument 20 can be implemented in a variety of ways, the detailed description of which is omitted herein.
또한, 센싱 신호가 하이브리드 컨트롤 모드, 즉 사람이 핸들(10)을 수동으로 조작하여 인스트루먼트(20)를 작동시키는 과정에 로봇이 개입하여 핸들(10)을 조작하는 힘을 증폭시키는 등, 인스트루먼트(20)가 로봇 및 핸들(10)에 의해 같이 조작되는 상태로 판단될 경우, 로봇의 메인 컨트롤러는 사용자 조작이 의도대로 구현되도록, 예를 들면 부스트업되도록, 로봇 암(3)으로부터 전달되는 구동력을 제어할 수 있다(S26).In addition, the sensing signal may be a hybrid control mode, that is, a human may manually manipulate the handle 10 to operate the instrument 20 to amplify a force that the robot manipulates the handle 10 to operate. ) Is determined to be operated together by the robot and the handle 10, the main controller of the robot controls the driving force transmitted from the robot arm 3 such that the user operation is implemented as intended, for example, boosted up. It may be (S26).
부스트업 기능 외에도, 사람이 조작하기 힘든 정밀한 동작이나 위험한 동작 등을 로봇이 개입하여 수행하도록 하는 기능 등 다양한 방식의 하이브리드 컨트롤이 가능하며, 여기에서는 그 제어 알고리즘에 대한 구체적인 설명은 생략한다.In addition to the boost-up function, hybrid control in various ways is possible, such as a function that allows a robot to intervene in a precise motion or a dangerous motion that is difficult for a human to operate, and a detailed description of the control algorithm is omitted here.
이상과 같이 수동조작용 핸들(10)이 추가된 수술용 로봇 시스템을 구현하고 제어함으로써, 사람에 의한 수동 조작과 로봇에 의한 조작이 함께 이루어지는 수술을 수행할 수 있다. 예를 들어, 로봇 암(3)이 4개인 경우, 2개는 로컬 컨트롤에 의해 사람이 직접 수동으로 조작하고, 나머지 2개는 리모트 컨트롤에 의해 로봇이 조작하도록(수술용 로봇의 콘솔에서 의사가 마스터 인터페이스를 조작하도록) 할 수 있으며, 이렇게 함으로써 수술용 로봇 콘솔에서 의사 혼자서 손을 바꾸어 가면서 4개의 로봇 암(3)을 모두 조작하는 것에 비해 수술의 안전성 및 효율성을 제고시킬 수 있다.As described above, by implementing and controlling the surgical robot system to which the manual operation handle 10 is added, it is possible to perform a surgery that is performed by manual operation by a person and operation by a robot. For example, if there are four robot arms 3, two are manually operated by a person directly by local control, and the other two are operated by a remote control by a doctor (at the console of the surgical robot) This can improve the safety and efficiency of the surgery compared to manipulating all four robotic arms 3 while changing hands by the doctor alone in the surgical robot console.
또한, 마스터 콘솔(master console)과 슬레이브 로봇(slave robot)이 서로 떨어진 위치에서 서로 신호를 송수신하여 슬레이브 로봇을 구동시킴으로써 수술을 수행하는 이른바 '원격 수술'의 경우, 수술 현장에는 슬레이브 로봇만 위치하기 때문에, 로봇 암(3)에 인스트루먼트(20)가 장착된 상태에서 원격지의 의사가 마스터 콘솔을 조작하여 원격으로 수술을 수행하고, 현장의 의사는 슬레이브 로봇 옆에서 수술을 지켜보게 된다.In addition, in the case of the so-called 'remote surgery' in which a master console and a slave robot transmit and receive signals to each other at a distance from each other and drive the slave robot, only the slave robot is located at the operation site. Therefore, in the state where the instrument 20 is mounted on the robot arm 3, the remote doctor operates the master console to perform the operation remotely, and the on-site doctor watches the operation next to the slave robot.
본 실시예에 따른 수술용 로봇을 사용하여 원격 수술을 수행하는 중에, 마스터 콘솔을 조작하는 의사가 오동작을 하거나 로봇 시스템이 오작동하는 등의 응급 상황이 발생하면, 즉시 현장의 의사가 스위치를 눌러 로컬 컨트롤 모드로 변경하고, 로봇 암(3)이 자유롭게 움직일 수 있는 상태에서 수동으로 인스트루먼트(20)를 조작하여 직접 수술을 수행함으로써 응급 상황을 타개하도록 할 수 있다.While performing a remote operation using the surgical robot according to the present embodiment, if an emergency occurs such as a malfunction of the doctor operating the master console or a malfunction of the robot system, the on-site doctor immediately presses a switch to In the control mode, the robot arm 3 can be freely moved to manually operate the instrument 20 to perform an operation directly to overcome the emergency situation.
이와 같이 수동으로 인스트루먼트를 조작하는 것은 기존의 수작업 방식의 수술과 동일하게 진행될 수 있다. 즉, 수술용 로봇에 장착된 인스트루먼트를 기존의 일반 복강경 기구와 유사하게 사용할 수 있다.In this way, manually manipulating the instrument can be performed in the same manner as the conventional manual surgery. In other words, the instrument mounted on the surgical robot can be used similar to the conventional laparoscopic instruments.
종래의 로봇 수술 과정에서 수작업으로 수술을 진행할 필요가 있는 경우에는, 로봇에 장착된 인스트루먼트를 환자로부터 모두 제거한 후 다시 일반 수작업용 수술 기구를 삽입해야 하는 번거로움이 있었는데, 전술한 실시예에 따른 수술용 로봇을 사용하게 되면 로봇에 장착된 인스트루먼트를 직접 수동으로 조작할 수 있으므로, 로봇에 장착된 인스트루먼트를 제거하고 일반 수술 기구를 삽입하는 데에 소요되는 시간을 절약할 수 있어, 훨씬 안전하고 신속하게 응급 상황에 대처할 수 있다는 장점이 있다.When it is necessary to proceed with the manual operation in the conventional robot surgery process, there was a hassle to remove all the instruments mounted on the robot from the patient and then insert the general manual surgical instruments again, according to the above-described embodiment Using robots allows you to directly control instruments mounted on the robot, saving you the time it takes to remove instruments and insert common surgical instruments, making them much safer and faster. It has the advantage of being able to cope with emergencies.
또한, 본 실시예에 따른 수술용 로봇을 활용하여 수술 교육을 실시할 수 있는데, 로봇 암(3)에 인스트루먼트(20)가 장착된 상태에서 로봇이 인스트루먼트(20)를 작동시키지 않도록 로컬 컨트롤 모드로 변경하고, 학습자는 수동으로 인스트루먼트(20)를 조작하여 수술을 수행하고, 교육자는 마스터 콘솔에 앉아서 학습자가 수술을 수행하는 상황을 지켜보도록 할 수 있다.In addition, the surgical training can be performed by using the surgical robot according to the present embodiment, the robot arm (3) in the state in which the instrument 20 is mounted in the local control mode so that the robot does not operate the instrument (20) In addition, the learner can manually operate the instrument 20 to perform the surgery, the educator can sit in the master console to watch the situation where the learner performs the surgery.
이러한 상태에서 학습자가 오동작을 하거나 위급한 상황이 발생할 경우, 교육자는 즉시 로봇을 리모트 컨트롤 모드로 전환하여 로봇을 조작함으로써 발생한 위급 상황을 타개하도록 할 수 있다.In this state, if the learner malfunctions or an emergency situation occurs, the educator can immediately switch the robot to the remote control mode to overcome the emergency situation caused by operating the robot.
반대로, 학습자가 마스터 콘솔에 앉아 로봇 수술을 수행하고, 교육자는 인스트루먼트(20)가 조작되는 상황을 지켜보다가, 학습자가 오동작을 하거나 위급한 상황이 발생할 경우 교육자는 즉시 로봇을 로컬 컨트롤 모드로 전환하여 로봇을 조작함으로써 발생한 위급 상황을 타개하도록 할 수도 있다.Conversely, the learner sits on the master console to perform robotic surgery, the educator watches the instrument 20 operate, and the learner immediately switches the robot to local control mode when the learner malfunctions or has an emergency. It is also possible to overcome the emergency situation caused by manipulating the robot.
본 실시예 따른 수술용 로봇에서 다양한 제어 모드 간의 변환은, 전술한 바와 같이 로봇에 설치된 수동조작용 핸들(10)을 미리 설정된 방식으로 조작하거나, 별도로 구비된 스위치를 누르는 등 다양한 방법으로 구현될 수 있다.In the surgical robot according to the present embodiment, the conversion between various control modes may be implemented by various methods such as manipulating the manual operation handle 10 installed in the robot in a preset manner or pressing a switch provided separately. have.
도 10은 본 발명의 다른 실시예에 따른 수술용 로봇 제어방법을 나타낸 순서도이다.10 is a flowchart showing a surgical robot control method according to another embodiment of the present invention.
본 실시예에 따른 수술용 로봇은 수동 조작 및 로봇에 의한 조작이 모두 가능하므로, 미리 입력된 수동 조작의 내용을 즉시 또는 나중에 로봇이 추적할 수 있도록 함으로써, 고난이도 수술이나 수술 교육 등에 활용할 수 있다.Since the surgical robot according to the present embodiment can be operated both by manual operation and by the robot, the robot can immediately track the contents of the previously input manual operation immediately or later, so that the robot can be used for high difficulty surgery or surgical education.
즉, 사용자 조작에 의한 센싱 신호를 입력받아(S30), 향후 수동 조작의 내용을 로깅(logging)하는 것으로 판단될 경우, 사용자가 핸들(10)을 조작하여 인스트루먼트(20)가 구동된 이력을 히스토리 데이터 형태로 저장해 둔다(S40).That is, when it is determined that the sensing signal is input by the user's manipulation (S30) and the contents of manual manipulation are logged in the future, the user operates the handle 10 to record the history of the driving of the instrument 20. The data is stored in the form (S40).
사용자의 조작 내용대로 인스트루먼트(20)를 다시 구동시키고자 할 때에는, 저장된 히스토리 데이터에 불러와 로봇을 제어함으로써, 사용자가 핸들(10)을 조작하여 구동시킨 것과 동일하게 로봇이 인스트루먼트(20)를 다시 구동시킬 수 있다(S50).When the instrument 20 is to be driven again according to the user's operation, the robot loads the stored history data to control the robot, so that the robot drives the instrument 20 again in the same manner as the user operated and operated the handle 10. Can be driven (S50).
상술한 본 발명의 실시예에 따른 수술용 로봇 제어방법은 기록매체에 저장된 후 소정의 장치, 예를 들면, 수술용 로봇 시스템과 결합하여 수행될 수 있다. 여기서, 기록매체는 하드 디스크, 비디오테이프, CD, VCD, DVD와 같은 자기 또는 광 기록매체이거나 또는 오프라인 또는 온라인상에 구축된 클라이언트 또는 서버 컴퓨터의 데이터베이스일 수도 있다.The surgical robot control method according to the embodiment of the present invention described above may be performed in combination with a predetermined device, for example, a surgical robot system after being stored in a recording medium. Here, the recording medium may be a magnetic or optical recording medium such as a hard disk, a video tape, a CD, a VCD, a DVD, or a database of a client or server computer built offline or online.
상기에서는 본 발명의 바람직한 실시예를 참조하여 설명하였지만, 해당 기술분야에서 통상의 지식을 가진 자라면 하기의 특허 청구의 범위에 기재된 본 발명의 사상 및 영역으로부터 벗어나지 않는 범위 내에서 본 발명을 다양하게 수정 및 변경시킬 수 있음을 이해할 수 있을 것이다.Although described above with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the invention described in the claims below It will be appreciated that modifications and variations can be made.

Claims (32)

  1. 수술용 로봇에 구비된 로봇 암(arm)에 장착되는 인스트루먼트(instrument)로서,As an instrument mounted on a robot arm provided in the surgical robot,
    상기 인스트루먼트에는 수동조작용 핸들(handle)이 결합되며, 상기 인스트루먼트는 상기 핸들에 대한 사용자 조작에 의해 수술에 필요한 동작을 수행하는 것을 특징으로 하는 하이브리드(hybrid) 수술용 인스트루먼트.The instrument is coupled to a manual operation handle (handle), the instrument is a hybrid (hybrid) surgical instrument, characterized in that for performing the operation required for the operation by the user operation on the handle.
  2. 제1항에 있어서,The method of claim 1,
    상기 로봇 암의 선단부에 장착되며, 상기 로봇 암으로부터 구동력을 전달받아 작동되는 구동부와;A driving unit mounted to the front end of the robot arm and operated by receiving a driving force from the robot arm;
    상기 구동부에 결합되며, 그 내부에 상기 구동부에 연결되는 동력전달수단을 수용하는 샤프트(shaft)와;A shaft coupled to the drive unit, the shaft receiving a power transmission means connected to the drive unit therein;
    상기 샤프트의 말단부에 결합되며, 상기 동력전달수단에 연결되어 상기 로봇 암 및 상기 핸들 중 어느 하나 이상으로부터 전달되는 구동력에 의해 작동되는 이펙터(effector)를 포함하되,An effector coupled to the distal end of the shaft, the effector being coupled to the power transmission means and actuated by a driving force transmitted from any one or more of the robot arm and the handle,
    상기 핸들은 상기 구동부에 결합되며, 사용자 조작에 의해 상기 동력전달수단에 구동력을 인가하는 것을 특징으로 하는 하이브리드 수술용 인스트루먼트.The handle is coupled to the drive unit, the hybrid surgical instrument, characterized in that for applying a driving force to the power transmission means by a user operation.
  3. 제2항에 있어서,The method of claim 2,
    상기 로봇 암의 선단부에는 액츄에이터(actuator)가 형성되고, 상기 구동부에는 상기 액츄에이터에 정합되는 구동자가 설치되며, 상기 동력전달수단은 상기 구동자에 결합되는 와이어(wire)를 포함하되, 상기 핸들은 사용자 조작에 의해 상기 구동자에 구동력을 전달하는 것을 특징으로 하는 하이브리드 수술용 인스트루먼트.An actuator is formed at the tip of the robot arm, and a driver is installed in the driver, and the power transmission means includes a wire coupled to the driver, the handle being a user. Hybrid surgical instrument, characterized in that for transmitting a driving force to the driver by the operation.
  4. 제2항에 있어서,The method of claim 2,
    상기 핸들은 상기 이펙터의 작동 자유도에 상응하는 자유도로 조작되는 것을 특징으로 하는 하이브리드 수술용 인스트루먼트.And said handle is manipulated with a degree of freedom corresponding to the degree of freedom of operation of said effector.
  5. 제1항에 있어서, 상기 수술용 로봇은,According to claim 1, The surgical robot,
    상기 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와;A sensor unit for sensing a user's manipulation of the handle and outputting a sensing signal;
    상기 센싱 신호에 상응하여 상기 제어 신호를 생성하는 컨트롤러를 더 포함하되,Further comprising a controller for generating the control signal in response to the sensing signal,
    상기 컨트롤러는, 상기 사용자 조작에 대한 부스트업(boost-up) 기능을 수행하는 것을 특징으로 하는 하이브리드 수술용 인스트루먼트.The controller is a hybrid surgical instrument, characterized in that for performing a boost-up (boost-up) function for the user operation.
  6. 수술용 로봇에 구비된 로봇 암의 선단부에 장착되며, 상기 로봇 암으로부터 구동력을 전달받아 작동되는 제1 구동부와, 상기 제1 구동부에 결합되며 그 내부에 상기 제1 구동부에 연결되는 동력전달수단을 수용하는 샤프트와, 상기 샤프트의 말단부에 결합되며 상기 동력전달수단에 연결되어 상기 제1 구동부 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함하는, 로봇 수술용 인스트루먼트에 결합되어 상기 인스트루먼트를 수동으로 조작하기 위한 핸들부재로서,A first drive unit mounted to a front end of the robot arm provided in the surgical robot and operated by receiving driving force from the robot arm, and a power transmission unit coupled to the first drive unit and connected to the first drive unit therein; A shaft coupled to the distal end of the shaft and coupled to the power transmission means, the effector performing an operation necessary for surgery in accordance with the operation of the first drive unit, coupled to a robotic surgical instrument and manually manipulating the instrument As a handle member for operating,
    상기 제1 구동부에 장착되며 상기 제1 구동부에 구동력을 전달하여 제1 구동부가 작동되도록 하는 제2 구동부와;A second driver mounted on the first driver and transmitting a driving force to the first driver to operate the first driver;
    상기 제2 구동부에 결합되며, 사용자 조작에 의해 상기 제2 구동부에 구동력을 인가하는 핸들을 포함하는 수술용 인스트루먼트의 수동조작용 핸들부재.The manual operating handle member of the surgical instrument coupled to the second drive unit, including a handle for applying a driving force to the second drive unit by a user operation.
  7. 제6항에 있어서,The method of claim 6,
    상기 제1 구동부에는 로봇 암의 선단부에 형성되는 액츄에이터에 정합되는 제1 구동자가 설치되고, 상기 동력전달수단은 상기 제1 구동자에 결합되는 와이어를 포함하되,The first driver is provided with a first driver to be matched to an actuator formed on the front end of the robot arm, the power transmission means includes a wire coupled to the first driver,
    상기 제2 구동부에는 상기 제1 구동자와 정합되는 제2 구동자가 설치되며, 상기 핸들은 사용자 조작에 의해 상기 제2 구동자에 구동력을 전달하는 것을 특징으로 하는 수술용 인스트루먼트의 수동조작용 핸들부재.The second driver is provided with a second driver that is matched with the first driver, the handle is a manual operation handle member of the surgical instrument, characterized in that for transmitting a driving force to the second driver by a user operation .
  8. 제6항에 있어서,The method of claim 6,
    상기 제1 구동부의 일면은 상기 로봇 암의 선단부에 장착되고, 상기 제1 구동부의 타면에는 상기 제2 구동부가 장착되는 것을 특징으로 하는 수술용 인스트루먼트의 수동조작용 핸들부재.One surface of the first driving unit is mounted to the front end of the robot arm, the other surface of the first driving unit manual operation handle member of the surgical instrument, characterized in that the second driving unit is mounted.
  9. 제8항에 있어서,The method of claim 8,
    상기 제2 구동부는 상기 제1 구동부에 탈착가능하도록 장착되며, 상기 제2 구동부가 상기 제1 구동부로부터 분리된 경우 상기 제1 구동부의 타면에는 별도의 커버 부재가 결합되는 것을 특징으로 하는 수술용 인스트루먼트의 수동조작용 핸들부재.The second driving unit is detachably mounted to the first driving unit, and when the second driving unit is separated from the first driving unit, an additional cover member is coupled to the other surface of the first driving unit. Hand-operated handle member.
  10. 제6항에 있어서, 상기 수술용 로봇은,According to claim 6, The surgical robot,
    상기 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와;A sensor unit for sensing a user's manipulation of the handle and outputting a sensing signal;
    상기 센싱 신호에 상응하여 상기 제어 신호를 생성하는 컨트롤러를 더 포함하되,Further comprising a controller for generating the control signal in response to the sensing signal,
    상기 컨트롤러는, 상기 사용자 조작에 대한 부스트업(boost-up) 기능을 수행하는 것을 특징으로 하는 수술용 인스트루먼트의 수동조작용 핸들부재.The controller is a manual operation handle member of the surgical instrument, characterized in that for performing a boost-up (boost-up) function for the user operation.
  11. 수술용 로봇에 구비된 로봇 암에 인스트루먼트를 장착하기 위해 개재되는 어댑터(adapter)로서,An adapter interposed to mount an instrument on a robot arm provided in a surgical robot,
    상기 로봇 암의 선단부에 장착되며, 상기 로봇 암으로부터 구동력을 전달받아 작동되는 제1 구동부와;A first driving unit mounted to a front end of the robot arm and operated by receiving a driving force from the robot arm;
    상기 제1 구동부에 결합되며, 사용자 조작에 의해 상기 제1 구동부에 구동력을 인가하는 핸들을 포함하는 하이브리드 수술 로봇용 어댑터.And a handle coupled to the first drive unit, the handle configured to apply a driving force to the first drive unit by a user manipulation.
  12. 제11항에 있어서,The method of claim 11,
    상기 인스트루먼트는,The instrument is,
    상기 제1 구동부에 장착되며, 상기 제1 구동부로부터 구동력을 전달받아 작동되는 제2 구동부와;A second driving unit mounted to the first driving unit and operated to receive a driving force from the first driving unit;
    상기 제2 구동부에 결합되며, 그 내부에 상기 제2 구동부에 연결되는 동력전달수단을 수용하는 샤프트와;A shaft coupled to the second drive unit and accommodating therein a power transmission means connected to the second drive unit;
    상기 샤프트의 말단부에 결합되며, 상기 동력전달수단에 연결되어 상기 제2 구동부의 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함하는 것을 특징으로 하는 하이브리드 수술 로봇용 어댑터.And an effector coupled to the distal end of the shaft, the effector being connected to the power transmission means and performing an operation necessary for surgery according to the operation of the second drive unit.
  13. 제12항에 있어서,The method of claim 12,
    상기 로봇 암의 선단부에는 액츄에이터가 형성되고, 상기 제1 구동부에는 상기 액츄에이터에 정합되는 제1 구동자가 설치되며, 상기 제2 구동부에는 상기 제1 구동자에 정합되는 제2 구동자가 설치되고, 상기 동력전달수단은 상기 제2 구동자에 결합되는 와이어를 포함하며, 상기 핸들은 사용자 조작에 의해 상기 제1 구동자에 구동력을 전달하는 것을 특징으로 하는 하이브리드 수술 로봇용 어댑터.An actuator is formed at the front end of the robot arm, and the first driver is provided with a first driver matched to the actuator, and the second driver is provided with a second driver matched to the first driver. The transfer means includes a wire coupled to the second driver, the handle is a hybrid surgical robot adapter, characterized in that for transmitting a driving force to the first driver by a user operation.
  14. 제12항에 있어서,The method of claim 12,
    상기 제1 구동부의 일면은 상기 로봇 암의 선단부에 장착되고, 상기 제1 구동부의 타면에는 상기 제2 구동부가 장착되는 것을 특징으로 하는 하이브리드 수술 로봇용 어댑터.One surface of the first drive unit is mounted to the front end of the robot arm, the second drive unit is a hybrid surgical robot adapter, characterized in that the second drive unit is mounted.
  15. 제11항에 있어서,The method of claim 11,
    상기 어댑터는 수술용 로봇에 장착되는 멸균 어댑터(sterile adapter)로 사용되는 것을 특징으로 하는 하이브리드 수술 로봇용 어댑터.The adapter is a hybrid surgical robot adapter, characterized in that used as a sterile adapter (sterile adapter) mounted to the surgical robot.
  16. 제11항에 있어서, 상기 수술용 로봇은,The method of claim 11, wherein the surgical robot,
    상기 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와;A sensor unit for sensing a user's manipulation of the handle and outputting a sensing signal;
    상기 센싱 신호에 상응하여 상기 제어 신호를 생성하는 컨트롤러를 더 포함하되,Further comprising a controller for generating the control signal in response to the sensing signal,
    상기 컨트롤러는, 상기 사용자 조작에 대한 부스트업(boost-up) 기능을 수행하는 것을 특징으로 하는 수술 로봇용 어댑터.The controller, the surgical robot adapter, characterized in that for performing a boost-up (boost-up) function for the user operation.
  17. 로봇 암에 인스트루먼트를 장착하여 수술을 수행하기 위한 로봇으로서,A robot for performing an operation by mounting an instrument on a robot arm,
    상기 로봇 암의 선단부에 형성되며, 상기 로봇으로부터 생성되는 제어 신호에 상응하여 구동되는 액츄에이터와;An actuator formed at the front end of the robot arm and driven according to a control signal generated from the robot;
    상기 로봇 암에 결합되며, 사용자 조작에 의해 상기 액츄에이터에 구동력을 인가하는 핸들을 포함하는 하이브리드 수술용 로봇.And a handle coupled to the robot arm, the handle configured to apply a driving force to the actuator by a user manipulation.
  18. 제17항에 있어서,The method of claim 17,
    상기 인스트루먼트는,The instrument is,
    상기 로봇 암의 선단부에 장착되며, 상기 로봇 암으로부터 구동력을 전달받아 작동되는 구동부와;A driving unit mounted to the front end of the robot arm and operated by receiving a driving force from the robot arm;
    상기 구동부에 결합되며, 그 내부에 상기 구동부에 연결되는 동력전달수단을 수용하는 샤프트와;A shaft coupled to the drive unit, the shaft receiving a power transmission means connected to the drive unit therein;
    상기 샤프트의 말단부에 결합되며, 상기 동력전달수단에 연결되어 상기 구동부의 작동에 따라 수술에 필요한 동작을 수행하는 이펙터를 포함하는 것을 특징으로 하는 하이브리드 수술용 로봇.It is coupled to the distal end of the shaft, the hybrid surgical robot, characterized in that it is connected to the power transmission means for performing an operation required for the operation in accordance with the operation of the drive unit.
  19. 제17항에 있어서,The method of claim 17,
    상기 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와;A sensor unit for sensing a user's manipulation of the handle and outputting a sensing signal;
    상기 센싱 신호에 상응하여 상기 제어 신호를 생성하는 컨트롤러를 더 포함하되,Further comprising a controller for generating the control signal in response to the sensing signal,
    상기 컨트롤러는, 상기 사용자 조작에 대한 부스트업(boost-up) 기능을 수행하는 것을 특징으로 하는 하이브리드 수술용 로봇.The controller, the hybrid surgical robot, characterized in that for performing a boost-up (boost-up) function for the user operation.
  20. 로봇 암과;Robotic arm;
    상기 로봇 암에 장착되며, 상기 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와;An instrument mounted to the robot arm and operated to receive a driving force from the robot arm;
    사용자 조작에 의해 상기 인스트루먼트에 구동력을 인가하는 핸들을 포함하되,Including a handle for applying a driving force to the instrument by a user operation,
    상기 인스트루먼트는 상기 로봇 암으로부터 전달된 구동력 및 상기 핸들로부터 전달된 구동력 중 하나 이상에 의해 수술에 필요한 동작을 수행하는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템.The instrument is a hybrid surgical robot system, characterized in that for performing the operation required by the at least one of the driving force transmitted from the robot arm and the driving force transmitted from the handle.
  21. 제20항에 있어서,The method of claim 20,
    상기 핸들은 상기 로봇 암과 상기 인스트루먼트 중 어느 하나 이상에 결합되는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템.The handle is a hybrid surgical robot system, characterized in that coupled to any one or more of the robot arm and the instrument.
  22. 제20항에 있어서,The method of claim 20,
    상기 핸들은 별도의 부재로 제작되어 상기 인스트루먼트에 결합되는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템.The handle is made of a separate member is a hybrid surgical robot system, characterized in that coupled to the instrument.
  23. 제20항에 있어서,The method of claim 20,
    상기 핸들은 상기 로봇 암과 상기 인스트루먼트 사이에 개재되는 멸균 어댑터에 결합되는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템.And the handle is coupled to a sterile adapter interposed between the robot arm and the instrument.
  24. 제20항에 있어서,The method of claim 20,
    상기 핸들에 대한 사용자 조작을 감지하여 센싱 신호를 출력하는 센서부와;A sensor unit for sensing a user's manipulation of the handle and outputting a sensing signal;
    상기 센싱 신호에 상응하여 상기 로봇 암에 구동력을 인가하는 컨트롤러를 더 포함하되,Further comprising a controller for applying a driving force to the robot arm in response to the sensing signal,
    상기 컨트롤러는, 상기 사용자 조작에 대한 부스트업(boost-up) 기능을 수행하는 것을 특징으로 하는 하이브리드 수술용 로봇 시스템.The controller is a hybrid surgical robot system, characterized in that for performing a boost-up (boost-up) function for the user operation.
  25. 로봇 암과, 상기 로봇 암에 장착되며 상기 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와, 사용자 조작에 의해 상기 인스트루먼트에 구동력을 인가하는 수동조작용 핸들을 포함하는 수술용 로봇을 제어하는 방법으로서,A method of controlling a surgical robot comprising a robot arm, an instrument mounted to the robot arm and operated by receiving a driving force from the robot arm, and a manual operation handle configured to apply a driving force to the instrument by a user operation.
    (a) 소정의 사용자 조작을 감지하여 센서로부터 출력되는 센싱 신호를 입력받는 단계; 및(a) sensing a predetermined user manipulation and receiving a sensing signal output from a sensor; And
    (b) 상기 센싱 신호에 상응하여 상기 로봇 암으로부터 전달되는 구동력을 조절하는 단계를 포함하는 수술용 로봇 제어방법.(b) adjusting a driving force transmitted from the robot arm in response to the sensing signal.
  26. 제25항에 있어서,The method of claim 25,
    상기 단계 (a)는, 상기 수술용 로봇에 구비된 스위치에 대한 사용자 조작을 감지하는 단계를 포함하는 것을 특징으로 하는 수술용 로봇 제어방법.The step (a), the surgical robot control method comprising the step of detecting a user operation for the switch provided in the surgical robot.
  27. 제26항에 있어서,The method of claim 26,
    상기 단계 (b)는, 상기 로봇 암으로부터 상기 인스트루먼트에 전달되는 구동력 또는 상기 핸들로부터 상기 인스트루먼트에 전달되는 구동력이 차단되도록 하는 단계를 포함하는 것을 특징으로 하는 수술용 로봇 제어방법.Wherein (b), the driving force transmitted from the robot arm to the instrument or the driving force transmitted to the instrument from the handle is characterized in that it comprises the step of blocking.
  28. 제25항에 있어서,The method of claim 25,
    상기 단계 (a)는, 상기 핸들에 대한 사용자 조작을 감지하는 단계를 포함하는 것을 특징으로 하는 수술용 로봇 제어방법.The step (a), the surgical robot control method comprising the step of detecting a user operation on the handle.
  29. 제28항에 있어서,The method of claim 28,
    상기 단계 (b)는, 상기 로봇 암으로부터 상기 인스트루먼트에 전달되는 구동력 또는 상기 핸들로부터 상기 인스트루먼트에 전달되는 구동력을 차단되도록 하는 단계를 포함하는 것을 특징으로 하는 수술용 로봇 제어방법.The step (b), comprising the step of blocking the driving force transmitted from the robot arm to the instrument or the driving force transmitted from the handle to the instrument.
  30. 제28항에 있어서,The method of claim 28,
    상기 단계 (b)는, 상기 사용자 조작이 부스트업(boost-up)되도록 상기 로봇 암으로부터 전달되는 구동력을 조절하는 단계를 포함하는 것을 특징으로 하는 수술용 로봇 제어방법.The step (b) is a surgical robot control method comprising the step of adjusting the driving force transmitted from the robot arm so that the user operation is boosted up (boost-up).
  31. 로봇 암과, 상기 로봇 암에 장착되며 상기 로봇 암으로부터 구동력을 전달받아 작동되는 인스트루먼트와, 사용자 조작에 의해 상기 인스트루먼트에 구동력을 인가하는 수동조작용 핸들을 포함하는 수술용 로봇을 제어하는 방법으로서,A method of controlling a surgical robot comprising a robot arm, an instrument mounted to the robot arm and operated by receiving a driving force from the robot arm, and a manual operation handle configured to apply a driving force to the instrument by a user operation.
    소정의 사용자 조작에 의해 생성되는 센싱 신호를 입력받는 단계;Receiving a sensing signal generated by a predetermined user manipulation;
    상기 핸들에 대한 사용자 조작에 따라 상기 인스트루먼트가 구동된 이력이 히스토리(history) 데이터로 저장되도록 하는 단계; 및Causing the history of driving the instrument to be stored as history data according to a user manipulation of the handle; And
    저장된 상기 히스토리 데이터에 상응하여 상기 인스트루먼트가 구동되도록, 상기 로봇 암으로부터 전달되는 구동력이 생성되도록 하는 단계를 포함하는 수술용 로봇 제어방법.And generating a driving force transmitted from the robot arm so that the instrument is driven in correspondence with the stored history data.
  32. 제25항 내지 제31항 중 어느 하나에 기재된 수술용 로봇 제어방법을 수행하기 위하여 디지털 처리 장치에 의해 실행될 수 있는 명령어들의 프로그램이 유형적으로 구현되어 있으며 디지털 처리 장치에 의해 판독될 수 있는 프로그램을 기록한 기록매체.32. A program of instructions that can be executed by a digital processing device is tangibly embodied to perform the surgical robot control method according to any one of claims 25 to 31, and records a program that can be read by the digital processing device. Record carrier.
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