Patent application number | Description | Published |
20090049640 | Robot cleaner system having robot cleaner and docking station - A robot cleaner system having an improved docking structure to allow a dust discharge port of a robot cleaner to come into close contact with a dust suction port of a docking station without an additional drive device. The robot cleaner system includes a robot cleaner having a dust discharge port, a docking station having a dust suction port to suction dust collected in the robot cleaner, and a docking device to perform a seesaw movement as it comes into contact with the robot cleaner when the robot cleaner docks with the docking station, so as to allow the dust suction port to come into close contact with the dust discharge port. The docking device further includes a link member installed in the docking station in a pivotally rotatable manner. The link member has one end provided with a contact portion to come into contact with the robot cleaner, and the other end provided with a docking portion defining the dust suction port therein. | 02-26-2009 |
20090092442 | COMPLIANT JOINT - A compliant joint capable of achieving passive compliance for a robot in order to prevent an injury to a human by collision with the robot. The compliant joint includes a housing, a cam member rotatably mounted in the housing, a roller spring device mounted to the cam member to be compressed and extended, a guiding member formed in the housing to guide compression and extension of the roller spring device in accordance with rotation of the cam member, and a receiving recess formed at the guiding member to engage the housing and the cam member with each other by receiving the roller spring device and release the engagement by separating from the roller spring device. Accordingly, robustness of the robot can be maintained when an impact less than a predetermined magnitude is applied, while being suddenly decreased when an impact greater than the magnitude is applied. | 04-09-2009 |
20090294187 | Walking robot - A walking robot, in which driving structures of a pitch direction hip joint and a knee joint of a leg are enhanced. The walking robot includes a trunk, and a plurality of legs connected to the trunk, at least one leg among the plurality of legs includes a thigh link, a calf link provided at the lower portion of the thigh link, a pitch direction hip joint connecting the trunk and the thigh link and rotating the thigh link against the trunk in a pitch direction, and a knee joint connecting the thigh link and the calf link and rotating the calf link against the thigh link in the pitch direction. The pitch direction hip joint and the knee joint are interlocked with each other and are driven by one interlocking actuator. | 12-03-2009 |
20090301798 | Walking robot - Disclosed is a walking robot having an improved driving structure for a pitch-direction femoral joint and a knee joint. The walking robot includes a pitch-direction actuator driving the pitch-direction femoral joint to rotate a femoral link relative to a body in a pitch direction, and a power transmission unit transferring driving force of the pitch-direction actuator to the knee joint to rotate the lower leg link relative to the femoral link in the pitch direction. | 12-10-2009 |
20090308188 | Robot joint driving apparatus and robot having the same - Disclosed are a robot joint driving apparatus and a robot having the same. The robot joint driving apparatus includes a driving motor being rotatable in forward and reverse directions; a pair of movable members connected to the driving motor, and moving rectilinearly in mutually opposite directions according to the rotation of the driving motor; a wire provided with both ends respectively connected to the pair of movable members; and a joint unit, on which the wire is wound, driven by the movement of the wire. | 12-17-2009 |
20090320638 | DRIVING APPARATUS AND ROBOT HAVING THE SAME - A driving apparatus includes a driving unit, a driven unit separated from the driving unit at a separation space so as not to contact the driving unit, and rotated by rotary force generated from the driving unit, a cable connecting the driving unit and the driven unit, and to transmit the rotary force to the driven unit, and pressure units provided in the separation space, and to pressurize the cable in a direction of approaching opposite portions of the cable to each other to generate a tensile strength of the cable. Since the cable transmitting the rotary force of the driving unit to the driven unit has sufficient tensile strength, preventing the generation of slip of the cable from the driving unit and the driven unit is possible, and thus to allow the rotary force to be transmitted to the driven unit without a loss. | 12-31-2009 |
20100162846 | Robot joint driving apparatus and robot having the same - Disclosed are a robot joint driving apparatus and a robot having the same, capable of minimizing tension of a wire applied to a movable member by installing an idle pulley in a power transmission structure using a ball screw apparatus and the wire. The robot joint driving apparatus includes a reversible drive motor, a pair of movable members performing a linear movement according to rotation of the reversible drive motor, a wire connected to the movable members from both directions of the movable members, an idle pulley rotatably installed at one side of the wire, a joint part rotatably installed at an opposite side of the wire, and an adjustment unit to adjust tension of the wire. | 07-01-2010 |
20110056321 | ROBOT JOINT DRIVING METHOD, COMPUTER-READABLE MEDIUM, DEVICE ASSEMBLY AND ROBOT HAVING THE SAME - Disclosed herein are a robot joint driving method, computer-readable medium, and device assembly which conducts motions similar to those of humans, and a robot having the same. These motions are achieved by arranging joint driving devices suited to characteristics of respective joints. The robot joint driving device assembly includes a tendon-type joint driving device using a wire, and a harmonic drive-type joint driving device using a gear reduction method. The tendon-type joint driving device is used to drive a rotary joint requiring high back-drivability, and the harmonic drive-type joint driving device is used to drive a rotary joint requiring high rigidity and high precision. | 03-10-2011 |
20110167945 | ROBOT JOINT DRIVING APPARATUS, ROBOT HAVING THE SAME AND CABLE LINKAGE METHOD OF ROBOT JOINT DRIVING APPARATUS - A robot joint driving apparatus has an improved structure, a robot having the same, and a cable linkage method of the robot joint driving apparatus. In the robot joint driving apparatus, lines of a cable to drive a robot joint unit are connected plural times in parallel, thereby increasing torsional stiffness of the robot joint unit. Further, a cable fixing unit is provided on an output pulley, thereby preventing slippage of the cable on the output pulley. Moreover, the overall size of the robot joint driving apparatus is reduced due to an improved power transmission structure from a driving motor to the output pulley. | 07-14-2011 |
20120060320 | ROBOT CLEANER SYSTEM HAVING ROBOT CLEANER AND DOCKING STATION - A robot cleaner system includes docking structure to allow a dust discharge port of a robot cleaner to come into close contact with a dust suction port of a docking station without an additional drive device. The robot cleaner system includes a robot cleaner having a dust discharge port, a docking station having a dust suction port to suction dust collected in the robot cleaner, and a docking device to perform a seesaw movement as it contacts the robot cleaner when the robot cleaner docks with the docking station, to allow the dust suction port to come into close contact with the dust discharge port. The docking device includes a link member installed in the docking station in a pivotally rotatable manner, one end having a contact portion to come into contact with the robot cleaner, and the other end having a docking portion defining the dust suction port therein. | 03-15-2012 |
20120112485 | ROBOT HAND - A robot hand including a frame, a link member moving relative to the frame, a joint unit provided between the frame and the link member, a drive unit supplying power to the joint unit so as to rotate the link member, and a backlash removal unit supplying constant torque to the joint unit, even if a relative position of the link member to the frame is changed as the link member is rotated. | 05-10-2012 |
20120126837 | Bumper structure of cleaning robot - A bumper structure of a cleaning robot which detects whether or not an obstacle contacts a bumper and a position of the obstacle, allows the bumper to be simply process and reduces the number of components of the cleaning robot to lower the production costs of the cleaning robot. The bumper structure includes a main body, a bumper installed on the front surface of the main body, a resistance film provided between the main body and the bumper and fixed to the main body, and a metal film provided between the main body and the bumper and fixed to the bumper such that the shape of the metal film is deformed together with the bumper and the metal film comes into contact with the resistance film when at least one obstacle contacts the bumper, so as to measure resistance values. | 05-24-2012 |
20120143028 | VITAL SIGN MEASUREMENT ROBOT AND CONTROL METHOD THEREOF - A vital sign measurement robot which automatically measures vital signs, and a control method thereof. The vital sign measurement robot includes an input unit to receive vital sign measurement instructions, an image recognition unit to detect a distance between the robot and a person, vital signs of whom are to be measured, and a measurement portion of the body of the person, when the vital sign measurement instructions are received, a control unit to move electrodes provided on hands so as to locate the electrodes at the measurement portion of the body of the person, when the distance between the robot and the person and the measurement portion of the body of the person are detected, and a vital sign measurement unit to measure a vital sign, when the electrodes are located at the measurement portion of the body of the person. | 06-07-2012 |
20130199327 | LINK UNIT, ARM MODULE, AND SURGICAL APPARATUS INCLUDING THE SAME - A surgical apparatus having sufficient rigidity in a fixed mode and being freely operable in a steering mode includes one or more arm modules having at least one degree of freedom, each arm module including at least one steering cable to steer the arm module and a plurality of link units to form the at least one arm module, each link unit including a head disposed at an upper portion thereof and having a hemispherical shape, a seat formed at a lower portion thereof, and a sliding ball arranged at the seat, wherein the link units are arranged such that the head of one of the link units is seated on the seat of the other of the link units, and the head of one of the link units and the seat of the other of the link units are slid with respect to each other by the sliding ball. | 08-08-2013 |
20130255410 | ROBOT ARM DRIVING APPARATUS AND ROBOT ARM HAVING THE SAME - A robot arm capable of being driven with a small force while having an enhanced rigidity includes a joint unit formed by stacking a plurality of link modules up against each other, and at least one driving device allowing the joint unit to pivot along at least one axis, wherein the driving device includes a cable disposed to pass through the plurality of link modules a plurality of times, a plurality of multi-turn pulleys configured to change a path of the cable when the cable passes therethrough, such that the cable passes through the plurality of link modules, and a driving unit configured to pull or push the cable such that the joint unit pivots. | 10-03-2013 |
20140084131 | APPARATUS INCLUDING MULTI-JOINTED ARM AND GRAVITY COMPENSATION METHOD - The present inventive concepts relate to an apparatus having a multi-jointed arm. The apparatus having a multi-jointed arm may include a body; a multi-jointed arm having a first link rotatably combined with the body at a first joint and a second link rotatably combined with the first link at a second joint; and a compensator generating a compensation moment cancelling out a moment being generated by a weight of the multi-jointed arm. The compensator includes a compensation load generating the compensation moment, and a compensation link connecting the compensation load and the multi-jointed arm so that the compensation load and the multi-jointed arm are on opposite sides of the first joint. | 03-27-2014 |
20140194699 | SINGLE PORT SURGICAL ROBOT AND CONTROL METHOD THEREOF - A single port surgical robot capable of setting the location of a remote center motion (RCM) point, and a control method thereof includes: a first link connected to a body by a first joint in a direction perpendicular to the body, the first link having a linear structure; a second link connected to the upper end of the first link by a second joint, the second link having a curved structure; a third link connected to the upper end of the second link by a third joint, the third link having a cylindrical structure; a plurality of light-emitting units arranged on the lower end of the third link along the circumference of the third link, and configured to emit light toward a remote center motion (RCM) point; and a controller configured to adjust the location of the RCM point. | 07-10-2014 |
20140257331 | LAPAROSCOPIC SURGICAL DEVICES HAVING WIRE REDUCER - Laparoscopic surgical devices include a first member having a first gear, a second member having a second gear corresponding to the first gear, a connection member configured to connect the first member and the second member; first and second wire mounting pieces respectively at the first and second members, a first wire wound on the first wire mounting pieces so as to be pulled upon receiving a first drive force; and a second wire wound on the second wire mounting pieces so as to be pulled upon receiving a second drive force. The drive unit is configured to selectively transmit the first and second amplified driving forces to a respective one the first member and the second member to cause tilting of the first member and the second member. | 09-11-2014 |
20140257336 | ENDOSCOPIC SURGICAL INSTRUMENTS - An endoscopic surgical instrument may include: two surgical instrument modules, each of which is provided with a surgical instrument portion; and/or an endoscopic module configured to form a triangular shape with the two surgical instrument modules and configured to capture operations of the surgical instrument modules at different angles using a plurality of joints. Wires connecting respective members coupled by the plurality of joints may be configured to amplify drive forces of a drive portion applied to the plurality of joints. The plurality of joints may include rolling joints at which teeth of gears engage and rotate with each other. The plurality of joints may provide three or more degrees of freedom to the endoscopic module. | 09-11-2014 |
20140303644 | SURGICAL ROBOT - A surgical robot including a slave device provided with a surgical instrument includes a body having at least one link that includes a plurality of solenoid segments, and an end effector mounted to one end of the body. | 10-09-2014 |
20140309659 | SURGICAL ROBOT AND CONTROL METHOD THEREOF - A surgical robot including a slave arm and an instrument provided at the slave arm to be introduced into a single port to perform surgery. The instrument includes a plurality of surgical instrument members to perform surgery while coming into contact with a surgical object, and a plurality of arm members. The arm members include surgical position regulators to move the surgical instrument members from the single port to a first surgical region where the surgical object is located, and surgical workers connecting the surgical position regulators and the surgical instrument members to each other, the surgical workers serving to move the surgical instrument members to a position close to surgical object within the first surgical region. The single-port surgical robot may effectively perform simultaneous surgery upon various surgical regions like multi-port surgery. | 10-16-2014 |