Class / Patent application number | Description | Number of patent applications / Date published |
074490020 | Including power cable or connector | 73 |
20080202274 | Manipulator - A manipulator, such as for use in medical procedures, is provided. The manipulator includes a body and a first actuator system connected to the body at a first attachment point and capable of moving the first attachment point with at least three degrees of freedom. A second actuator system is connected to the body at a second attachment point and capable of moving the second attachment point with at least three degrees of freedom. A third actuator system is integrated with the body and is capable of moving at least a portion of the body with at least one degree of freedom. | 08-28-2008 |
20080236324 | Robot having working tool - In an umbilical member processing mechanism of a robot, a working tool managing unit umbilical member ( | 10-02-2008 |
20080264195 | Industrial Robot - An industrial robot including a drive package with a motor and a gear between an output shaft of the motor and a third shaft of the robot in immediate proximity to the third shaft for rotation of an upper arm of the robot relative to a lower arm. The gear is a multistage gear transmission with parallel gear-wheel axes and one of the gear wheels of the gear is secured to the third shaft. | 10-30-2008 |
20080302200 | MODULAR HYBRID SNAKE ARM - An intelligent modular hybrid robot arm system is usable with mobile robots, and is applicable to stationary industrial arms. The intelligent modular hybrid robot arm system provides a large work envelope and a controlled and directed rotational movement for a flexible snake robot arm. The intelligent modular hybrid robot arm system has the ability to change end effector tools and sensors. The platform computers have the ability to interact with other subsystems for coordinated as well as independent tasks. The flexibly snake robot arm can be covered with a flexible sensor network, or “skin”. The intelligent modular hybrid robot arm system can manage its energy use, stores the arm in a compact shape and uses a central support tube offering unobstructed arm access to all sectors of its working envelope. | 12-11-2008 |
20090095110 | ROTATIONAL MECHANISM WITH A CABLE-PROTECTING STRUCTURE - An exemplary rotational mechanism ( | 04-16-2009 |
20090120228 | Industrial Robot - An industrial robot including, for rotation about a first shaft and rotation about a second shaft, a drive package with a motor and a gear between an output shaft of the motor and the first and second shafts, respectively. The respective gear is a multistage gear transmission with parallel gear wheel axes and one of the gear wheels of the gear is secured to the first and second shafts, respectively. The gear for the second shaft is arranged above the gear of the first shaft and, viewed from above in the direction of the first shaft, is partly covering the gear of the first shaft. | 05-14-2009 |
20090249915 | Industrial robot - The invention provides a waterproof and dustproof structure of a joint portion of an industrial robot which is inexpensive and does not adversely affect a motion performance of a robot. Accordingly, in a manipulator type robot which has a cable passing hole provided in a part of an outer periphery of a manipulator, and is provided with a cable wired to an inner side and an outer side of the manipulator through the cable passing hole, a mold guide surrounding an outer periphery of one or a plurality of conducting wire passing through an inner portion is provided near the cable passing hole, an inner side of the mold guide is mold treated by a resin filling, and a sealing material is provided in an outer side of the mold guide. | 10-08-2009 |
20090314120 | Industrial Robot With Tubular Member For A Cable Harness - A robot arm for an industrial robot, comprising a first arm part and a second arm part, wherein the second arm part is rotatably journalled in the first arm part for rotation about a first axis of rotation, characterized in that the second arm part comprises a tubular member, rotatably journalled in the first arm part, whereby the tubular member is configured to support the robot arm. | 12-24-2009 |
20100000364 | ROBOT - A robot includes a work tool, an arm, a cable, and a third member. The work tool is configured to perform a predetermined work with respect to a workpiece. The work tool is attached to the wrist. The arm supports the wrist and is rotatable around a rotational axis. The arm includes first and second members which are provided substantially in parallel to each other in a longitudinal direction of the arm to form a space between the first and second members. The cable extends through the space and is connected to the work tool. The third member connects the first and second members. | 01-07-2010 |
20100050806 | HORIZONTAL ARTICULATED ROBOT - A horizontal articulated robot includes a base, a first arm provided rotatably around a first rotation axis on the base, a second arm provided rotatably around a second rotation axis on the first arm, the second rotation axis being parallel to the first rotation axis, and a main shaft provided in the second arm to be extended in a direction parallel to the second rotation axis. A distance between the second rotation axis and the main shaft is shorter than a length of a straight line connecting the first and the second rotation axes. Additionally, the first arm has a recessed portion formed so as to include a position on a rotation path where a rotation radius around the second rotation axis is equivalent to the distance between the second rotation axis and the main shaft. | 03-04-2010 |
20100116078 | Electrical connecting device of joint unit and robot having the same - Disclosed is an electrical connecting device of a joint unit. The electrical connecting device includes a first conductor provided at one side of the electrical connecting device and a second conductor provided at the other side of the electrical connecting device. The first and second conductors make contact with each other. Therefore, the joint unit is electrically connected at all times so that the joint unit is used as a module. | 05-13-2010 |
20100175495 | MANIPULATOR - A manipulator includes an arm body, a cable, and at least one cover fixed on the arm body. The arm body has at least one friction portion over which the at least one cover covers. The at least one cover separates the cable from contacting with the friction portion, thus protects the cable from being damaged by the friction portion. | 07-15-2010 |
20100229671 | INDUSTRIAL ROBOT - The present invention provides an industrial robot, wherein a cable or the like spanned between an end effector and an upper arm has less bending due to a motion of a wrist portion, wherein the cable or the like does not twine around the upper arm, and wherein the cable or the like does not interfere with a peripheral device. | 09-16-2010 |
20100313694 | APPARATUS FOR HOLDING CABLES IN ROTARY SHAFT OF ROBOT - An apparatus holds plural cables arranged in a robot. A first fixing member secures ones of both ends of the cables on a first shaft portion in a flat form, the ones of the end portions being directed in a rotation direction of the second shaft portion. A second fixing member secures the others of both end portions of the cables on a second shaft portion in the flat form, the other end portions being directed in the rotation direction. The remaining portions of the cables are bent and suspended along the first and second shaft portions in a U-shaped and flat form when being viewed in the rotation direction. A first cable guide, fixed to the first shaft portion, accommodates part of the cables therein in the plat form. A second cable guide, fixed to the second shaft portion, accommodates part of the cables therein in the flat form. | 12-16-2010 |
20110023651 | APPARATUS FOR COMPACT COUNTER BALANCE ARMS - In one embodiment of the invention, an apparatus is provided including a linkage and a balancing mechanism coupled to the linkage around a pivotal joint. The linkage couples to a support structure at a first end and support a weight applied to a second end. The balancing mechanism counter balances the weight applied to the second end of the linkage. As the linkage is deformed to vertically adjust the height of the weight with a different moment arm length, the balancing mechanism varies a cable path length to modify the compression of a spring and a tension in a cable to adjust the amount of counter balance force applied to the linkage. | 02-03-2011 |
20110072931 | ROBOT ARRANGEMENT - An arrangement includes a robot having a robot arm that supports a device powered by supply lines. The arrangement includes at least one guide element that is fastened to the robot arm, and the supply lines are moveably held against at least one segment of the robot arm by the at least one guide element. At least one storage element is provided for receiving a supply line provision. The at least one storage element releases the supply line from the supply line provision with an increasing tensile load of the supply lines and retracts the supply line into the supply line provision with a decreasing tensile load of the supply lines. | 03-31-2011 |
20110088499 | Laser Head With Axial Crash Protection - An upper housing assembly includes a pivot arm having an upper cam surface adjacent a distal end. A cam follower is coupled to a laser head to move up and down with a laser head. The cam follower exerts a downward force on the upper cam surface during normal operation. Thus, as the pivot arm rotates back and forth, the laser head moves up and down. A assist gas hose can be coupled between the upper housing and the laser head which has a spiral configuration permitting relative axial movement between the upper housing and the laser head. Upon an upward axial force being exerted on the laser head, the cam follower moves upwardly away from the upper cam surface. | 04-21-2011 |
20110120253 | ARM MECHANISM, AND VACUUM ROBOT PROVIDED WITH THE SAME - A first decelerator is placed in an arm base such that a lower end of a decelerator shaft is bared in the arm base. A first arm has a hermetic space which becomes equal in pressure to a hermetic space of the arm base when an upper end of the hollow decelerator shaft is inserted thereinto, and is secured to a first decelerator output shaft. A second decelerator is placed on a distal end of the first arm, and has an input shaft connected to the decelerator shaft. A second arm is secured to an output shaft of the second decelerator, and has no hermetic space formed therein. A link mechanism follows the first and second arms. | 05-26-2011 |
20110154933 | FIXING SEAT AND INDUSTRIAL ROBOT USING THE SAME - An industrial robot includes a first rotation assembly, a second rotation assembly, and a cable assembly. The first rotation assembly includes a holding seat, a first rotation shaft rotatably positioned in the holding seat, and a first driver driving the first rotation shaft to rotate. The second rotation assembly includes a fixing seat. The cable assembly is received in the first rotation assembly and the second rotation assembly. The fixing seat includes a main body and a retaining portion extending from one end of the main body, and the main body of the fixing seat is positioned on the holding seat and fixed with the first rotation shaft of the first rotation assembly. The main body of the fixing seat defines a passing slot to receive the cable assembly and a passing hole communicating with the passing slot through which the cable assembly passes. | 06-30-2011 |
20110203402 | PROCESS TURNING DISC, A ROBOT ARM COMPRISING A PROCESS TURNING DISC, A ROBOT AND A USE OF A PROCESS TURNING DISC - A process turning disc connectable to an output shaft of a motor configured to rotate the process turning disc about a first center axis of the process turning disc. The process turning disc being configured to guide a cable or hose. A first flange is connectable to an end part of a robot arm. A second flange is connectable to a tool element. The flanges are spaced apart from each other by an intermediate connecting member. The connecting member is connected to the flanges. The connecting member provides a passage between the flanges. The passage is configured to receive and guide the cable/hose. The passage has an inlet side for the cable/hose and an outlet side for the cable/hose. A robot arm including the process turning disc, a robot including the robot arm and a method that utilizes the process turning disc. | 08-25-2011 |
20110252913 | UMBILICAL MEMBER ARRANGEMENT UNIT OF ROBOT ARM SECTION - An umbilical member arrangement unit of a robot arm section, capable of avoiding interference between the umbilical member and external equipment without using a guide member. The arrangement unit has a first fixing member attached to a nonrotating part and adapted to nonslidably fix the umbilical member, and a second fixing member attached to a rotating part so as to integrally rotate with the rotating part and adapted to nonslidably fix the umbilical member. When the rotating part is positioned at a center position of a rotational motion range thereof about the longitudinal axis, the first and second fixing members direct the umbilical member along first and second tangential lines, respectively, the two tangential lines being generally perpendicular to each other, and, the fixing members are positioned in the same region in relation to two regions defined by a boundary plane parallel to the second tangential line, on which the longitudinal axis lies. | 10-20-2011 |
20110252914 | UMBILICAL MEMBER ARRANGEMENT UNIT OF ROBOT WRIST SECTION - An umbilical member arrangement unit for an umbilical member, having a simple structure and high rigidity, capable of avoiding interference between the umbilical member and external equipment. The unit has a guide member constituted by a first plate member attached to a front end of a wrist section, a second plate member opposed to the first plate member and a connecting member connecting the first and second plate members. A cross-sectional region of the connecting member includes the wrist axis, extends from the axis in a first radial direction by a distance not smaller than a half of a size of the umbilical member in the cross-sectional direction thereof, and extends from the axis in an axisymmetrical second radial direction by a distance not larger than a half of the size of the umbilical member, so that the umbilical member contacts the second plate member and/or the connecting member at any rotational angular position of the guide member. | 10-20-2011 |
20110252915 | INDUSTRIAL ROBOT - The present invention is characterized by arranging a flow path | 10-20-2011 |
20120067157 | ROBOT - A robot includes a base; a swivel unit rotatably arranged on the base; a lower arm having a base end portion, a tip end portion and a side surface, the base end portion rotatably supported on the swivel unit to enable the lower arm to swing in a front-rear direction; and first and second cable bundles arranged on the side surface of the lower arm to extend along a longitudinal direction of the lower arm. The robot further includes a cable bundle support mechanism including a guide unit for supporting the first and second cable bundles to move in the longitudinal direction of the lower arm. | 03-22-2012 |
20120103125 | ROBOT ARM ASSEMBLY - A robot arm assembly includes a first shaft base, a second shaft base rotatably connected to the first shaft base, a wire harness, and a clamping mechanism for clamping the wire harness. The first shaft base defines a first through hole along a longitudinal axis, and the second shaft base defines a second through hole. The clamping mechanism includes a main body connected to the second shaft base, and a locking member engaged with the main body. The second shaft base rotates relative to the first shaft base around the longitudinal axis. The main body further comprise a clamping portion on an end thereof, and the clamping portion is capability of radial deformation. The locking member resists the clamping portion to clamp the wire harness. The wire harness extends through the first through hole, the second through hole, and then the clamping mechanism. | 05-03-2012 |
20120152050 | THREE-AXIS ROBOTIC SYSTEM WITH LINEAR BEARING SUPPORTS - A three-axis robotic system. On the first and second axes, respective linear bearings have movable carriages, and backbone-free linear bases acting as exclusive support or linear bearing supports. A first motor is mounted to the first linear bearing support and coupled to the first carriage. The second linear bearing support is attached at one end to the first carriage and may be orthogonal to the first linear bearing support. A second motor is mounted to the second linear bearing support and coupled to the second carriage. A third axis member is attached to the second carriage. The third axis member may be orthogonal to the first and second linear bearing supports. A third carriage is slidable on the third axis member. A third motor is mounted to the third axis member and coupled to the third carriage. Each respective motor and carriage may be coupled by a belt or leadscrew. | 06-21-2012 |
20120186381 | Robot End Effector with Cable Management - Cable manager | 07-26-2012 |
20120186382 | ROTATING DEVICE AND ROBOT ARM DEVICE - A rotating device includes a communication unit including a transmitting portion having a first ring-shaped coil, a first ring-shaped magnetic body covering the first ring-shaped coil and a first terminal connected to the first ring-shaped coil, and a receiving portion having a second ring-shaped coil, a second ring-shaped magnetic body covering the second ring-shaped coil and a second terminal connected to the second ring-shaped coil, and a bearing connecting a hollow fixed portion to a hollow rotating portion. | 07-26-2012 |
20120216647 | ROBOTIC CLAW AND ROBOT USING SAME - A robotic claw includes a sleeve, a rod, a plurality of balls and a plunger. The sleeve comprises a mounting portion and a clamping portion. A mounting hole defined at an end of the mounting portion. A plurality of receiving through holes defined in the clamping portion, and an assembling hole communicating with the receiving through hole, and is defined at an end of the clamping portion. The balls are movably received in the receiving through holes correspondingly. The rod comprises an urging portion movably received in the sleeve to push the balls toward the receiving through holes. The plunger seals the assembling hole to prevent the balls from dropping out of the receiving through holes, and the balls can be mounted in the receiving through holes through the assembling hole. | 08-30-2012 |
20120255388 | LINE MANAGEMENT SYSTEM AND A METHOD FOR ROUTING FLEXIBLE LINES FOR A ROBOT - A line management system for a robot includes a flexible line, a structure clamp coupled to a first end of the flexible line to attach the flexible line to a support structure of the robot, an arm clamp coupled to the second end of the flexible line to attach the flexible line to an outer arm of the robot, a coupling device moveably coupled to the robot structure, wherein the flexible line is attached to the coupling device at an intermediate point along a length thereof. | 10-11-2012 |
20130042714 | INDUSTRIAL ROBOT - An industrial robot includes a support body, a moving platform, a pivot shaft, a plurality of driving devices, a plurality of transfer branch joints, and a base. The support body includes a main body, and an installing portion opposite to the main body; the pivot shaft is rotatably connected with the main body and the moving platform; the driving devices are positioned at a bottom of the main body; each transfer branch joint is movably connected with the moving platform and one corresponding driving device; the installing base includes a bottom base, and two supporting arms extending from opposite sides of the bottom base; the bottom base and the two supporting arms cooperatively forming a receiving space; the bottom base and the two supporting arms are detachable in relation to the installing portion and the main body; the main body is received in the receiving space. | 02-21-2013 |
20130047771 | ROBOT WITH CABLE PROTECTION STRUCTURE - A robot includes a first shaft housing, a second shaft housing rotatably assembled to the first shaft housing, a driver, a cable assembly, a transmission mechanism and a cable pass-through assembly. The driver is assembled within the first shaft housing for driving the second shaft housing to rotate relative to the first shaft housing. The cable pass-through assembly is assembled within the second shaft housing and defines a cable passage hole coaxial with the second shaft housing. The cable assembly passes through the cable passage hole of the cable pass-through assembly and electronically connects with the driver. The transmission mechanism is sleeved on the cable pass-through assembly for transmitting the driving force generated by the driver to the second shaft housing, thereby driving the second shaft housing to rotate relative to the first shaft housing. | 02-28-2013 |
20130098190 | MECHANICAL MANIPULATOR WITH CABLE PROTECTION STRUCTURE - A mechanical manipulator includes a base seat, a connecting arm, a mechanical arm, an electric cable, and a cable protection structure. The connecting arm has a first end rotatably hinged to the base seat, a second end opposite to the first end, and a side surface, the connecting arm defines a cable receiving slot in the side surface. The mechanical arm is rotatably hinged to the second end of the connecting arm. The electric cable is partially received within the cable receiving slot. Two ends of the electric cable are exposed from two ends of the cable receiving slot and then enter into the base seat and the mechanical arm respectively. The cable protection structure is fixed to the connecting arm and resists against the electric cable toward the cable receiving slot, for preventing the electric cable emerging from the cable receiving slot. | 04-25-2013 |
20130145891 | ROBOT ARM WITH CABLE PROTECTION STRUCTURE - A robot arm includes a first shaft housing, a first driving mechanism, a second driving mechanism, a cable pass-through assembly and a cable assembly. The first shaft housing is hollow shaped, and includes a housing, a first mounting base and a second mounting base mounted on the housing. The first driving mechanism is mounted on the first mounting base. The second driving mechanism is mounted on the second mounting base. The cable pass-through assembly includes a first cable tube and a second cable tube. The cable assembly electrically connects with the first driving mechanism and the second driving mechanism. An axis of the first cable tube overlaps with an axis of the first mounting base. An axis of the second cable tube overlaps with an axis of the second mounting base. The cable assembly passes through the first cable tube and the second cable tube. | 06-13-2013 |
20130145892 | PARALLEL LINK MECHANISM AND INDUSTRIAL ROBOT - A link mechanism arranged between a fixed base and a movable base. The mechanism includes a drive gear reducer, a first arm, a second arm, a connection base, a first link, and a second link. The drive gear reducer includes a body, an input shaft, a first output shaft, and a second output shaft. The first arm is connected to the fixed base and the body of the reducer. The second arm is connected to the second output shaft and the movable base. The connection base is arranged such that the second arm is between the connection base and the reducer, the connection base is connected to the first output shaft. The first link is connected to the fixed base and the connection base. The second link is connected to the connection base and the movable base. | 06-13-2013 |
20130233116 | ROBOT SKELETAL COMPONENTS - A robot skeletal component may be configured to support and power a robot. The skeletal component may include an elongated inner core and a battery coupled to and substantially circumscribing the inner core. The robot skeletal component may be configured to connect to a joint via a quick release flange. A casing may enclose the battery. The casing may be configured to seal punctures. The robot skeletal component may include a heating element to heat the battery. The robot skeletal component may be configured to transport fluid, data, and/or electrical power. The inner core may include a plurality of surface elements to transfer data and/or electrical power. The inner core may include a hollow interior, and the hollow interior may include a plurality of non-interconnected chambers configured to transfer fluid. The inner core may include insulators to insulate the inner core from the surface elements and/or the fluid. | 09-12-2013 |
20140013893 | ROBOT - A robot, includes: a robot arm including: a first frame; and a second frame coupled to the first frame to be turnable about a joint axis; a cable arranged along a side surface of the first frame and a side surface of the second frame; a first fixing member for fixing the cable to the side surface of the first frame; a second fixing member for fixing the cable to the side surface of the second frame; a holding member for holding a part of the cable between the first fixing member and the second fixing member; and a support mechanism for regulating movement of the holding member in an axis direction of the joint axis, the support mechanism supporting the holding member so that the holding member is movable in a direction orthogonal to the axis direction of the joint axis to follow a bending movement of the cable. | 01-16-2014 |
20140020498 | UMBILICAL MEMBER ARRANGEMENT STRUCTURE OF INDUSTRIAL ROBOT HAVING HOLLOW MEMBER - An umbilical member arrangement structure capable of being used in a waterproof application, wherein a hollow portion may be independently used for wiring of a work tool, while the motion of an umbilical member for the work tool may be stabilized. A bent hollow member has a first flange attached to a first opening. Between the first flange and a first wrist element, a liquid-tight first seal member is disposed. At a second opening formed on the back side of a forearm base part, a second flange is arranged at a rear end of an I-shaped pipe, and a liquid-tight second seal member, similar to the first seal member | 01-23-2014 |
20140033851 | GUIDE SYSTEM FOR SUPPLY LINES AND A ROBOT WITH A GUIDE SYSTEM - A guide system for supply lines for a handling apparatus, in particular for an industrial robot, having a base and a carrier member, in or on which the supply lines can be arranged. The carrier member is arranged guided displaceably reciprocatingly between a deflection position and a return position over a displacement travel (V) for length compensation in a compensating portion in two runs connected together by way of a direction-changing bend and each having a respective end connecting point. The guide system has a return device for returning the carrier member to the return position. The return device is provided with a direction-changing guide having a direction-changing element which is arranged variably in respect of position relative to the base and against which the direction-changing bend is laterally supported for guidance thereof over the displacement travel. For the return of the direction-changing element, a return force which can be detected by sensor means can act on the direction-changing element. | 02-06-2014 |
20140053676 | ROBOTIC POWER AND SIGNAL DISTRIBUTION USING LAMINATED CABLE WITH SEPARATOR WEBS - Systems and methods that facilitate cables to pass through moving, space-constrained joints and conveying power and/or signals to various robotic joint-associated elements utilize a unitary and flat laminated cable slack within the joint to accommodate the relative motion between mechanical elements of the joints. In various embodiments, the cable has multiple insulated sub-cables; each sub-cable is insulated and physically separable from all other sub-cables. Some of the sub-cables are separated from the cable and electrically connected to joint-associated components for conveying signals and power thereto without mechanically interfering with relative motion between mechanical elements of the joint. | 02-27-2014 |
20140069222 | UMBILICAL MEMBER ARRANGEMENT STRUCTURE OF PARALLEL LINK ROBOT - An umbilical member arrangement structure capable of properly arranging an umbilical member in a parallel link robot. A first additional actuator is arranged on a passive link part of a parallel link robot. An Umbilical member is withdrawn from an opening formed on a generally circular bottom surface of a base part, while having a margin, approaches the passive link part, while extending in an intersecting direction with respect to a longitudinal direction of the passive link part, and is connected to the first additional actuator. The “intersecting direction” means a direction extending at an angle of 70 to 110 degrees, preferably 80 to 100 degrees, more preferably about 90 degrees, with respect to the longitudinal direction of the passive link part. | 03-13-2014 |
20140083229 | UMBILICAL MEMBER ATTACHMENT DEVICE OF ROBOT - An umbilical member attachment device including a base part attached detachably to a first member and a second member of a robot, the first member and the second member rotating relative to each other; a first fastening part attached to the base part to fasten the first umbilical member; and a second fastening part attached to the base part to fasten the second umbilical member. The second fastening part has an attachment member attached to the base part and a fastening member fastening the second umbilical member to the attachment member, and the attachment member is provided detachably from the base part together with the second umbilical member in a state where the first umbilical member is fastened by the first fastening part. | 03-27-2014 |
20140102240 | MULTIPLE-JOINT INDUSTRIAL ROBOT - A wrist portion of a robot includes: a first movable portion configured to rotate relative to an arm portion around a first wrist axis; a second movable portion configured to rotate relative to the first movable portion around a second wrist axis; a third movable portion configured to rotate relative to the second movable portion around a third wrist axis; and a cable insertion portion through which an effector cable is inserted, the effector cable being used to supply electric power to an end effector attached to the third movable portion. The cable insertion portion is provided at the first movable portion so as to be located on the first wrist axis. Two motors among a plurality of motors configured to drive the wrist portion are attached to the first movable portion so as to sandwich the cable insertion portion in a direction perpendicular to the first wrist axis. | 04-17-2014 |
20140109712 | HORIZONTAL MULTI-JOINT ROBOT AND ROBOT - A horizontal multi-joint robot includes: a first joint capable of swiveling around a first axis; a second joint capable of swiveling around a second axis that is parallel to and spaced apart from the first axis; and a duct connected between the first joint and the second joint. The first joint has a first connecting portion forming a predetermined angle relative to the first axis. The second joint has a second connecting portion forming a predetermined angle relative to the second axis. The duct has a first end and a second end. The first end is connected to the first connecting portion. The second end is connected to the second connecting portion. | 04-24-2014 |
20140130631 | UMBILICAL MEMBER GUIDE DEVICE AT FRONT END PART OF WRIST OF INDUSTRIAL ROBOT AND INDUSTRIAL ROBOT - An umbilical member guide device of an industrial robot including an umbilical member guide body interposed between a shaft member and an end effector. The umbilical member guide body includes a first plate part having a first through hole through which the umbilical member passing through the shaft member passes, a second plate part arranged facing the first plate part, and a connecting part connecting the first plate part and the second plate part together and forming an opening part between the first plate part and the second plate part, and the second plate part further has a second through hole and a communicating part communicating the opening part and the second through hole. | 05-15-2014 |
20140137685 | CABLE ARRANGEMENT STRUCTURE OF MULTI-JOINT ROBOT - A cable arrangement structure capable of properly arranging a motor-drive cable while preventing a robot from being complicated and increased in size. Among first to sixth motor-drive cables, at least first to third motor-drive cables are introduced to a cable outlet formed on at least one of a rotating body, a first arm and a second arm. The motor-drive cables, introduced to the outlet, are withdrawn outside the robot as a cable bundle or separate cables, and are connected to a robot controller positioned separately from the robot. | 05-22-2014 |
20140165771 | ROBOT ARM - The invention is concerning a robotic arm that features several consecutive mobile links and motors associated with axes relative to one another for the moving of the links. At least one of the links is selectively mountable in at least two configurations relative to its adjacent links. | 06-19-2014 |
20140230595 | APPARATUS AND METHOD FOR CONTROLLING AN END-EFFECTOR ASSEMBLY - An apparatus for controlling an end-effector assembly is provided. The apparatus includes a elongated element configured to engage the end-effector assembly and a drive assembly. A first motion transfer mechanism is disposed at an end of the elongated element. The first motion transfer mechanism is configured to transfer a rotational motion of the elongated element to a motion of the end-effector assembly. A second motion transfer mechanism is disposed at the second end of the elongated element. The second motion transfer mechanism is configured to transfer a motion of the drive assembly to the rotational motion of the elongated element. | 08-21-2014 |
20140238175 | TRANSMITTING TORQUE TO AN OPERATIVE ELEMENT THROUGH A WORKING CHANNEL - Methods, systems, and devices for providing treatment to a target site are described. The system may include a guide assembly, an expandable support device coupled with the distal end of the guide assembly, and an operative member disposed on the expandable support device. The expandable support device may be configured to transition between a collapsed and expanded configuration. The expandable support device may be supported by one or more flexible supports aligned in parallel with an axis about which the expandable support device collapses and/or multiple splines arranged in a pattern configured to promote transitioning of the expandable support device between an expanded and collapsed configuration. The guide assembly may be configured to provide torque to the expandable support device. The operative member can include multiple electrodes arranged in parallel to the axis about which the expandable support device collapses. | 08-28-2014 |
20140238176 | TRANSMITTING TORQUE WITH A HANDLE TO AN OPERATIVE ELEMENT THROUGH A WORKING CHANNEL - Methods, systems, and devices for providing treatment to a target site are described. The system may include a guide assembly, an expandable support device coupled with the distal end of the guide assembly, and an operative member disposed on the expandable support device. The expandable support device may be configured to transition between a collapsed and expanded configuration. The expandable support device may be supported by one or more flexible supports aligned in parallel with an axis about which the expandable support device collapses and/or multiple splines arranged in a pattern configured to promote transitioning of the expandable support device between an expanded and collapsed configuration. The guide assembly may be configured to provide torque to the expandable support device. The operative member can include multiple electrodes arranged in parallel to the axis about which the expandable support device collapses. | 08-28-2014 |
20140290415 | ROBOT HAVING A LINE DISTRIBUTION BOARD - A robot includes a plurality of lines respectively having connecting portions, which are connected to an outer apparatus, at end portions, and at least one line distribution board to which the connecting portions of the plurality of lines are attached. The line distribution board includes a plurality of line distribution board elements, which can be separated from each other, and to which the connecting portion of at least one of the plurality of lines is attached. | 10-02-2014 |
20140290416 | MULTI-AXIS ROBOT - A multi-axis robot includes: a base with a hollow; a support member with a hollow, the support member constituting a proximal end portion of an arm of the multi-axis robot; and a guide pipe configured to rotate together with the support member, the guide pipe being configured such that one end of the guide pipe is rotatably inserted in the base, and inner space of the guide pipe is in communication with inner space of the support member and inner space of the base. A notch is formed in a peripheral surface of an end portion of the guide pipe, the end portion being positioned in the base. A motor cable extends to reach the notch from radially outside of the guide pipe. | 10-02-2014 |
20140360306 | PARALLEL ROBOT, ROBOT SYSTEM, AND ASSEMBLY METHOD FOR TRANSFER SYSTEM - A parallel robot includes a base casing, a plurality of arms, and an end unit. The base casing contains a plurality of actuators. Each of the arms is coupled to one of the actuators. The end unit is coupled to the plurality of arms. A communication hole for allowing piping and/or wiring to continue is formed in the base casing at its side facing the end unit. | 12-11-2014 |
20150007681 | ATTACHMENT STRUCTURE FOR DRIVE CABLES OF ROBOT AND ROBOT APPARATUS PROVIDED THEREWITH - An attachment structure for drive cables include a first fixing member and a second fixing member separate from the first fixing member, which are designed to fix the drive cables in a non-slidable manner. The first fixing member is disposed behind a pivot body of a robot so as to pivot together with the pivot body. The second fixing member is disposed so as to be spaced apart from the first fixing member in a direction parallel to a rotational axis of an arm of the robot. The drive cables are fixed so as to be convexly curved upward in a portion between the first fixing member and the second fixing member. | 01-08-2015 |
20150027261 | ROBOT AND MANUFACTURING METHOD OF THE SAME - A robot according to an aspect of an embodiment includes a robot arm, an attaching portion, an end effector, an end-effector-side cable, and a robot-side cable. The attaching portion is provided on a leading end of the robot arm. The end effector is attached to the attaching portion. The end-effector-side cable extends from the end effector. The robot-side cable is arranged along the robot arm and is connected to the end-effector-side cable by terminal connection at a position closer to the end effector than the attaching portion. | 01-29-2015 |
20150027262 | ROBOT AND MANUFACTURING METHOD OF THE SAME - A robot in an embodiment includes a robot body, an end effector, a cable, and one or more coupling portions. The end effector is connected to the robot body. The cable is composed of a plurality of sub cables, arranged along the robot body, and connected to the end effector. Each of the coupling portion is provided between one sub cable and an adjacent sub cable of the sub cables to couple the one and adjacent sub cables together. | 01-29-2015 |
20150040713 | WIRING STRUCTURE FOR ROBOT ARM - A wiring structure for a robot arm includes a pair of arm members that each have a hollow shaft shape including a first end section and a second end section, and that are arranged to be parallel to each other. A wire-shaped body is introduced into the arm member from the first end section and led out of the arm member through the second end section so as to penetrate at least one of the pair of arm members in an axis direction of the arm member. A regulating member is provided at least in an intermediate region of the arm member in the longitudinal direction to regulate a displacement of the wire-shaped body within the arm member in a radial direction of the arm member. | 02-12-2015 |
20150068347 | ROBOT ARM AND ROBOT - A robot arm increases a plurality of arm sections that are turnably connected. The arm sections include a plurality of links and an actuator section that turns the plurality of links. The actuator section includes: a cylindrical cover provided on an outer surface; a motor that turns the plurality of links; a motor frame included in the motor; a reduction gear that decelerates rotation from the motor and outputs a torque; a collar fixed to the reduction gear; and a wire body including at least one of a wire and a pipe. At least a part of the wire body is housed between a surface including a first small body section formed by the motor frame and the collar and a surface including a second small body section of the cylindrical cover. | 03-12-2015 |
20150090063 | ROBOTIC ARRANGEMENT FOR USE IN MEDICAL FIELDS - A robotic arrangement for use in medical fields has a robot arm having, in particular, a plurality of hinges, an instrument holder provided on the robot arm in order to receive a medical instrument, and supply lines which can be connected to the instrument. An adapter element is used for connecting the supply lines to the instrument. | 04-02-2015 |
20150096401 | INDUSTRIAL ROBOT - An industrial robot of the present disclosure includes a manipulator, a control device for controlling the manipulator, and a connection cable that connects the manipulator to the control device. The manipulator includes a fixed base section, a first motor, a first detecting section, a power supply section, a first casing, and a first power supply cable. The first motor operates the manipulator. The first detecting section detects the state of the first motor. The power supply section supplies electric power to the first detecting section. The first casing stores the first motor and the first detecting section. The first power supply cable connects the first detecting section to the power supply section. The power supply section is disposed in the base section. | 04-09-2015 |
20150114162 | ROBOT - A robot includes a joint as a first member, a link as a second member rotating around a third primary rotational axis in a bending and stretching manner with respect to the joint, a wiring board installed in the joint so that the first surface faces in a direction roughly perpendicular to the third primary rotational axis, and having a connector as a connection section to be connected to one end of an FPC as a flat cable disposed on the first surface, and a reel provided to the link, and formed by winding the other end side of the FPC around a rotational axis roughly parallel to the third primary rotational axis, and the FPC is connected to the first surface roughly perpendicularly to the first surface. | 04-30-2015 |
20150128748 | ROTARY TRANSMITTER FOR ROBOTS - A rotary transmitter for a robot includes: a cylindrical stator having a centric opening in a floor, and a rotor accepted in the centric opening in the floor so as to be capable of rotation, and at least one line guided through the opening in the jacket surface of the stator. A segment of the line is slackly guided on an inner wall of the stator, and the segment has a length such that the line can follow a rotation of the rotor about an angle of rotation in a manner free of tensile load. | 05-14-2015 |
20150290817 | ROBOTIC ARM - A robotic arm includes a first link and a first joint. The first link has internal link cables extending from one end to an opposed end thereof. The first joint is operably connected to the first link at one end thereof. The first joint has a hollow drive shaft, an off axis drivel | 10-15-2015 |
20150321344 | CEILING MOUNTED ROBOT - A ceiling mounted robot includes a first member; a first arm portion that is rotatably provided on the first member via a first joint portion; a second arm portion that is rotatably provided on the first arm portion via a second joint portion; a wiring portion that is inserted into the first arm portion and the second arm portion; and a connector portion that is connected to the wiring portion. | 11-12-2015 |
20150328780 | DEVICE FOR GUIDING AT LEAST ONE LINE OF AN ARTICULATED-ARM ROBOT, AND ARTICULATED ARM ROBOT - In order for a suitable restoring force to be exerted in a device for guiding at least one line of an articulated-arm robot, a restoring mechanism for exerting an elastic restoring force is provided. The restoring mechanism includes a guide unit and a slider element which is displaceably mounted on the guide unit. An elastic restoring unit, which has at least one deflection element, which is preferably configured as a deflection roller, and a flexural strand-shaped connection element, is disposed between the slider element and the guide unit. The restoring mechanism is housed in a closed housing and the line is connected to a slider element of the restoring unit inside the housing through one or two longitudinal slots. | 11-19-2015 |
20160046020 | SELECTIVE COMPLIANCE ASSEMBLY ROBOT ARM - A SCARA arm includes a base, a first arm, a second arm, a third linear shaft motor, and a fourth shaft motor. On the base is disposed a first shaft motor. The first arm is connected to and driven by the first shaft motor rotate in a horizontal direction. The second arm is fixed to a second shaft motor which is connected to the first arm to rotate the second arm in the horizontal direction. The third linear shaft motor includes a linear motor stator which extends in a vertical direction and is fixed to the second arm, and a linear motor mover which is sleeved onto the linear motor stator and movable along the vertical direction. The fourth shaft motor is drivingly connected to the linear motor mover and a rotary shaft, respectively, and another end of the rotary shaft is inserted out of the second arm. | 02-18-2016 |
20160062046 | CONNECTING DEVICE AND CONNECTING DEVICE FOR ROBOT MANIPULATOR - A connecting device configured to couple to a robot arm and a robot tool includes a first connecting part including a fixing member having at least one first magnetic part, at least one first optical fiber connector, and at least one first electrical connector which are coupled to the fixing member. A second connecting part which is removable and securely coupled to the first connecting part including a fixing member having at least one second magnetic part, at least one second optical fiber connector, and at least one first conduction connector which are coupled to the fixing member. The first magnetic part and the second magnetic part have opposite magnetic force. When the first magnetic part contacts the second magnetic part, the first optical fiber connector connect to the second optical fiber connector and the first electrical connector connects to the first conduction connector. | 03-03-2016 |
20160089779 | ROBOT - A robot includes: a base; an arm which is provided to be rotatable with respect to the base using a predetermined rotation shaft as the center of rotation; and an elongated object including a portion present in the base and in the arm, in which the elongated object is bound in a first binding position which is on the rotation shaft and in the base and a second binding position which is on the rotation shaft and in the arm. | 03-31-2016 |
20160089794 | ROBOT - A robot includes an nth arm (n is a natural number), an (n+1)th arm rotatably supported with respect to the nth arm, and a connection destination selection part that can select a connection destination of a cable routing present inside of the nth arm from a cable routing present outside of the nth arm and a cable routing present inside of the (n+1)th arm. | 03-31-2016 |
20160089797 | ROBOT - A robot includes a base, an arm provided on the base, a connecting member provided in an interior of the base and an interior of the arm, a first fixing member that fixes the connecting member in the interior of the arm and guides the connecting member in the interior of the arm, and an inertial sensor, wherein the inertial sensor is not in contact with the connecting member. | 03-31-2016 |
20160158944 | HORIZONTAL MULTI-JOINT ROBOT AND ROBOT - A horizontal multi-joint robot includes: a first joint capable of swiveling around a first axis; a second joint capable of swiveling around a second axis that is parallel to and spaced apart from the first axis; and a duct connected between the first joint and the second joint. The first joint has a first connecting portion forming a predetermined angle relative to the first axis. The second joint has a second connecting portion forming a predetermined angle relative to the second axis. The duct has a first end and a second end. The first end is connected to the first connecting portion. The second end is connected to the second connecting portion. | 06-09-2016 |
20160193735 | Industrial Robot With At Least One Drive | 07-07-2016 |
20220134580 | ROBOT ARM AND ROBOT ARM MANUFACTURING METHOD - A robot arm ( | 05-05-2022 |