Harmonic Drive Systems Inc. Patent applications |
Patent application number | Title | Published |
20160109014 | STRAIN WAVE GEARING - A hollow-type strain wave gearing unit has a cup-shaped flexible externally-toothed gear, in which one shaft end portion of a hollow rotation shaft of a wave generator is located. The shaft end portion is supported by a bearing mounted on a bearing holder fixed to a boss of the flexible externally-toothed gear. The bearing holder has a retainer holding portion to prevent a retainer of a wave generator bearing from coming off in the axis line direction. There is no need to dispose a retainer holding plate of the wave generator bearing inside the flexible externally-toothed gear, whereby the axial length of the hollow-type strain wave gearing unit can be reduced. | 04-21-2016 |
20160084367 | BEARING HOLDER, BEARING MECHANISM, AND STRAIN WAVE GEARING DEVICE - In this hollow strain wave gearing unit, a shaft end part of a hollow rotary shaft of a wave generator is located inside a cup-shaped flexible external gear. The shaft end part is supported by a bearing attached to a bearing holder that is fixed to a boss of the flexible external gear. In the bearing holder, an elastic leaf spring part that is displaceable in the axial direction constitutes a part that supports a holder body part that holds the bearing. A preload is applied by the leaf spring part to the bearing in the axial direction. Thus, there is no need to separately arrange a preload application member inside the flexible external gear, and the axial length of the hollow strain wave gearing unit can be shortened. | 03-24-2016 |
20160047451 | WAVE GENERATOR OF STRAIN WAVE GEARING - A wave generator of a strain wave gearing has a rigid plug and a needle roller bearing mounted on the plug external peripheral surface. The plug external peripheral surface has a retainer engaging part for engaging with a retainer that would move in an axis line direction and for restricting the movement thereof along the axis line direction. The retainer has an outer ring engaging part for engaging with an outer ring that would move in the axis line direction and for restricting the movement thereof along the axis line direction. The movements of the retainer and the outer ring can be restricted without providing a separate member. A wave generator of a strain way gearing can be realized, which is provided with a roller bearing capable of restricting the movement of the outer ring with a simple structure. | 02-18-2016 |
20160003338 | STRAIN WAVE GEARING HAVING DOUBLE-CONTACT NEGATIVE DEFLECTION TOOTH PROFILE - The addendum tooth profile of the inner teeth and outer teeth of a strain wave gearing is stipulated by a first and second similar curve obtained from the curve segment from an inflection point to a low point in a movement trajectory when the meshing of both teeth is approximated by rack meshing. The addendum tooth profile of the inner teeth is stipulated by a curve generated at the inner teeth in the process of the addendum profile of the outer teeth moving from the inflection point to the apex of the movement trajectory. The addendum tooth profile of the outer teeth is stipulated by a curve generated at the outer teeth when the addendum profile of the inner teeth moves from the inflection point to the apex. The addendum profile of the outer teeth makes double contact with the addendum profile and dedendum profile of the inner teeth. | 01-07-2016 |
20150316134 | STRAIN WAVE GEARING - First and second external tooth gear parts of a strain wave gearing are bent in an elliptic shape by a wave generator to engage with first and second internal tooth gears, respectively. The first and second external tooth gear parts are bent so as to have elliptic shapes the phases of which are rotated 90 degrees from each other about a rotational center line. A coupling external tooth gear part that maintains a circular cross-sectional shape which does not deform is formed in between the first and second external tooth gear parts. The coupling external tooth gear part is maintained so as to be coupled with a coupling internal tooth gear in an engaged manner. The strain wave gearing has high engagement rigidity and is capable of transmitting large torque. | 11-05-2015 |
20150285357 | STRAIN WAVE GEARING UNIT - A strain wave gearing unit is provided with an internal gear, which surrounds the periphery of a cup-shaped external gear, and a bearing. An annular gap is formed between the inner ring of the bearing and the internal gear. The gap communicates with the sliding portions of the bearing and the section where the two gears mesh. An annular filter member made of non-woven fabric is fitted in the gap. Foreign matter such as abrasion powder, which is contained in lubricant that flows in the gap, is trapped by the filter member. The present invention can prevent penetration of abrasion powder generated in the sliding portions into the meshing section via the gap. | 10-08-2015 |
20150285356 | WAVE GENERATOR AND STRAIN WAVE GEARING - A wave generator of a strain wave gearing has a plug, a wave generator bearing mounted to an outer peripheral surface of the plug, an input shaft protruding from the center of the plug to a first side running along a center axis, and a bearing arrangement on which a support bearing supporting the input shaft is arranged. Relative to an outer ring end surface of the wave generator bearing that faces the first side, a center-side plug end surface of a plug end surface facing the same direction is in a position withdrawn from the first side toward the opposite direction. The bearing arrangement is provided between the center-side plug end surface and the outer ring end surface encircling the input shaft. The input shaft can be fitted within the width dimension of the wave generator, and a strain wave gearing having a short axial length can be achieved. | 10-08-2015 |
20150240930 | FLEXIBLE EXTERNALLY TOOTHED GEAR FOR STRAIN WAVE GEARING AND METHOD FOR MANUFACTURING SAME - A method for manufacturing a flexible externally toothed gear includes: a first step (ST | 08-27-2015 |
20150229196 | LINEAR DC MOTOR - A linear DC motor having first and second drive coils and first and second drive magnets arranged in a symmetrical state in relation to a motor central axis that passes through a sliding member in which a lens is mounted. The first and second coils on a moveable side are positioned to both the left and right sides of the sliding member. The first and second drive coils are designed to be independent without being affected by the shape, size, arrangement position, and the like of the sliding member, a linear guide, and a detection part. The first and second drive coils have high rigidity and do not deform when the sliding member slides. Accordingly, it is possible to obtain a linear DC motor that has a highly rigid moveable part and performs positioning action with high responsiveness and high precision. | 08-13-2015 |
20150226302 | HOLLOW STRAIN WAVE GEARING - A first shaft end of a hollow shaft of a hollow strain wave gearing is supported by a first support bearing with a collar interposed therebetween which is mounted to the outer-circumferential surface of the first shaft end. A second shaft end on the other end of the hollow shaft is supported by a second support bearing. A wave plug of a wave generator is integrally formed with the hollow shaft, and a wave bearing is mounted on the elliptical outer-circumferential surface thereof from the first-shaft-end side. It is possible to use a first support bearing having an inner diameter larger than the outer diameter of the first shaft end as the first support bearing for supporting the first shaft end. | 08-13-2015 |
20150219200 | WAVE GENERATOR AND STRAIN WAVE GEARING - A wave generator ( | 08-06-2015 |
20150132047 | RIGID COUPLING - A slotted rigid coupling is configured in such a manner that an inner peripheral surface portion of a shaft hole, the inner peripheral surface portion being located within the slit-equipped fastening section of the coupling body, has an inner diameter d. The inner diameter d of an inner peripheral surface portion of the shaft hole, the inner peripheral surface portion being adjacent to the inner peripheral surface portion, is slightly larger than the inner diameter d. The inner peripheral surface portion is a relief surface recessed outward in the radial direction relative to the inner peripheral surface portion. A shaft is inserted in the shaft hole, and the fastening section is fastened. The region where the inner peripheral surface portion adjacent to the inner peripheral surface portion is provided does not come into contact with the shaft. The shaft can be fastened and affixed to the shaft hole without tilt. | 05-14-2015 |
20140347679 | GAP MEASUREMENT DEVICE - A gap measurement device | 11-27-2014 |
20140345406 | STRAIN WAVE GEARING WITH INVOLUTE POSITIVE DEFLECTION TOOTH PROFILE TAKING RIM THICKNESS INTO CONSIDERATION - In the strain wave gearing, an involute positive deflection tooth profile of a low pressure angle of less than 20° is used as the basic tooth profile for the rigid internal spur gear and the flexible external spur gear in order to increase the effective tooth depth. Continuous meshing of the two gears in the tooth trace direction is made possible by shifting the external teeth so that the linear parts of the rack tooth profiles coincide when viewed along the tooth trace direction. The root rim thickness of the front end of the external teeth of the flexible external spur gear is set to an optimal thickness and the root rim thicknesses at various positions other than the front end of the external teeth in the tooth trace direction are set to appropriate values. | 11-27-2014 |
20140283638 | WAVE GEAR DEVICE AND HOLLOW ROTATING ACTUATOR - In a wave gear device, the inner race and the boss are fixed together by a laser welded part formed along the entire periphery thereof. The laser welded part also functions as an oil seal for sealing the inner race and the boss. The boss and the inner race are fixed together in a manner that a required axial length is short, and that machining and assembling steps are reduced. Oil seal members are not required to seal the boss and the inner race. | 09-25-2014 |
20140217855 | VIBRATION POWER-GENERATING STRAIN WAVE GEARING - The strain wave gearing includes a rigid internally toothed gear, a flexible externally toothed gear that is disposed coaxially therein and is flexible in the radial direction, and a wave generator that is disposed coaxially inside the externally toothed gear. The flexible externally toothed gear is bent in the radial direction by the wave generator and meshes with the rigid internally toothed gear in sections. When the position of meshing of the rigid internally toothed gear with the flexible externally toothed gear moves in the circumferential direction as the wave generator rotates, a relative rotation that corresponds to the difference in number of teeth of the two gears is generated between the two gears. A vibration-powered generator is disposed on the flexible externally toothed gear. The vibration-powered generator is provided with a piezoelectric element. | 08-07-2014 |
20140203752 | POSITIONING CONTROL SYSTEM FOR ACTUATOR PROVIDED WITH WAVE GEAR DEVICE - A positioning control system for an actuator provided with a strain wave gearing is provided with: a semi-closed feedback controller FB(s) that controls a load shaft position θ | 07-24-2014 |
20140190298 | WAVE GEAR DEVICE - The interior space of a cup-shaped flexible externally toothed gear of a cup-type wave gear device is divided into a front interior space and a rear interior space by a partition mechanism. A lubricant is filled in the front interior space at the side of a wave generator, to which lubrication is required. The volume of the front interior space is set so that a necessary amount of lubricant is filled. Since the lubricant is not necessary to fill in the entire interior space of the flexible externally toothed gear, the amount of lubricant to be filled can be reduced. | 07-10-2014 |
20140165758 | FLEXIBLE EXTERNALLY TOOTHED GEAR FOR WAVE GEAR DEVICE - A cup-shaped flexible externally toothed gear of a wave gear device, wherein a diaphragm plate slopes from a diaphragm internal peripheral edge portion contiguous to a boss part toward a diaphragm external peripheral edge portion contiguous to a cylindrical body portion in a direction in which the diaphragm external peripheral edge portion is at greater distance from an open end of the cylindrical body portion with respect to an orthogonal plane orthogonal to a central axis line of the device. The length dimension of the diaphragm plate and the length dimension of the cylindrical body portion in the axial direction can be increased. Therefore, the fatigue strength of the diaphragm plate and the load capacity of the wave gear device in which the flexible externally toothed gear has been incorporated can be increased. | 06-19-2014 |
20140157925 | WAVE GEAR UNIT WITH INPUT BEARINGS - A wave gear unit has an input shaft positioned along a center axis by first and second input bearings. A first unit end plate at the first-input-bearing side is a composite member in which a bearing housing member of an iron-based material is integrated with an end plate main body member of a lightweight material. A second unit end plate at the second-input-bearing side is integrated with a rigid internally toothed gear, and is a composite member in which a second member of a lightweight material is integrated with a first member of a lightweight material. The first member has an end plate main body portion of the second unit end plate and a gear main body portion of the rigid internally toothed gear, while the second member has a bearing housing portion of the second unit end plate and a teeth formation portion of the rigid internally toothed gear. | 06-12-2014 |
20140150586 | INTERNALLY-TOOTHED GEAR UNIT WITH COMPOSITE ROLLER BEARING, AND WAVE GEAR DEVICE - A wave gear device ( | 06-05-2014 |
20140047938 | UNIT TYPE WAVE GEAR DEVICE - A unit type wave gear device ( | 02-20-2014 |
20140047937 | WAVE GEAR DEVICE HAVING THREE-DIMENSIONAL-CONTACT TOOTH PROFILE - In a wave gear device, similarity-curve tooth profiles BC and AC are adopted as addendum tooth profile shapes for gears, the tooth profiles being derived from a movement trajectory M | 02-20-2014 |
20140033840 | CONCENTRIC MULTI-AXIS ACTUATOR - A concentric double axis actuator has a two-stage cross roller bearing, and a preceding-stage actuator and a subsequent-stage actuator which are linked in tandem. The front end of a subsequent stage rotary output shaft of the subsequent actuator, said subsequent stage rotary output shaft passing through a hollow section of the preceding-stage actuator and projecting forward, is linked and fixed to an inner ring of the two-stage cross roller bearing, and the inner ring functions as a subsequent-stage rotary output member. The output rotary side of the preceding-stage actuator is linked to an middle ring of the two-stage cross roller bearing, which functions as a preceding-stage rotary output member. The rotary output element of each stage is supported by the two-stage cross roller bearing, and surface oscillations of the rotary output member of each stage can be minimized, and the moment stiffness of the members can be increased. | 02-06-2014 |
20140016892 | RETAINER FOR ROLLER BEARING AND NEEDLE ROLLER BEARING - A retainer for a roller bearing holds needle rollers within slit-shaped pockets which are formed separately by means of partitions arranged with a fixed pitch in the circumferential direction. Each partition is equipped with two side faces, which face the sides of the adjacent partitions, and an outer-circumferential-side end face, which faces the outer circumferential side of the retainer, and retaining protrusions are formed at the corner parts where the outer-circumferential-side end faces and each side face intersect. Each retaining protrusion protrudes farther to the outer circumferential side from the outer-circumferential-side end face, and protrudes obliquely in the direction in which the aperture width of the pockets is narrowed. For each pocket the positions where the retaining protrusions are formed in the longitudinal direction of the partitions are set so as not to overlap the adjacent pockets. | 01-16-2014 |
20140004989 | PLANETARY DIFFERENTIAL REDUCTION DEVICE | 01-02-2014 |
20130319174 | WAVE GEAR DEVICE AND FLEXIBLE EXTERNALLY TOOTHED GEAR - In a hollow wave gear device, a rigid internally toothed gear and a wave generator are disposed adjacent along a center axis line so as to enclose a cylindrical barrel part of a flexible externally toothed gear from the outside. A pushed cylindrical portion adjacent to an external-tooth-formed cylindrical portion of the cylindrical barrel part is pushed from the outside and made to flex into an ellipsoidal shape by the wave generator disposed on the outside thereof, whereby external teeth partially mesh with internal teeth of the rigid internally toothed gear. The inside diameter dimension of a hollow part can be the inside diameter of the cylindrical barrel part of the flexible externally toothed gear, and a hollow wave gear device can be achieved which is formed with a hollow part having a large inside diameter. | 12-05-2013 |
20130319151 | WAVE GEAR DEVICE AND FLEXIBLE EXTERNALLY TOOTHED GEAR - In a wave gear device, an annular rigid externally toothed gear is disposed on the inner side of a cup-shaped flexible internally toothed gear. An internal-tooth-formation portion of the flexible internally toothed gear and a pushed portion pushed by a wave generator and flexed ellipsoidally are formed in different positions along the center axis line. The wave generator is disposed on the inner side of the flexible internally toothed gear, the pushed cylindrical portion is pushed from the inner side to the outside along the radial direction thereof by the wave generator, whereby the pushed cylindrical portion is flexed ellipsodially. As the outside diameter dimension of the wave gear device is determined by that of the flexible internally toothed gear, a wave gear device having a small outside diameter dimension can be obtained. | 12-05-2013 |
20130316868 | WAVE GENERATOR OF WAVE GEAR DEVICE - An externally toothed portion of a cup-shaped flexible externally toothed gear of a wave gear device is flexed into an ellipsoidal shape by a six-roller-type wave generator. A region of an inner peripheral surface of the ellipsoidally flexed externally toothed portion that is positioned on a major axis of the ellipsoidal shape is maximally inclined. First rollers of the wave generator are arranged so that the incline is identical to the incline of the region of the inner peripheral surface. A circular outer peripheral surface of the first rollers can be brought into contact with the region of the inner peripheral surface in an external-tooth tooth-trace direction without deflection; therefore, the angular transmission precision of the wave gear device can be improved. | 11-28-2013 |
20130316867 | WAVE GENERATOR FOR WAVE GEAR DEVICE - A wave generator for a wave gear device is provided with a pair of first rollers arranged in a position that is point-symmetric in relation to the center of a flexible externally toothed gear, a pair of second rollers, and a pair of third rollers. The first rollers are located on a long axis of the flexible externally toothed gear that is being flex into an ellipsoidal shape, and the second and third rollers are located in positions that are linearly symmetric in relation to the long axis between the long axis and a short axis. Support bearings of the first rollers are larger than those of the second and third rollers. The rolling fatigue life of a roller-type of the wave generator can be to be enhanced. | 11-28-2013 |
20130312558 | WAVE GEAR DEVICE AND FLEXIBLE EXTERNALLY TOOTHED GEAR - A cup-shaped flexible externally toothed gear of a wave gear device comprises a cylindrical body part, and an external-teeth area thereof includes a pushed portion pushed radially outward by a wave generator and a groove formed in a position adjacent to the pushed portion toward a diaphragm. The reaction force of the wave generator can be reduced because the groove is formed to partially reduce thickness in a portion that does not affect the root strength of the external teeth. The increase in root stress can be suppressed when the roots of the external teeth are thickened, and root strength can be effectively increased. The load torque of the wave gear device can thereby be increased. | 11-28-2013 |
20130139636 | ROTARY ACTUATOR EQUIPPED WITH SENSING MECHANISM, AND JOINT UNIT - A rotary actuator equipped with a sensing mechanism includes a motor and a reducer concentrically disposed inside a cylindrical housing; a scale for detecting the rotational position of a rotary arm, the scale being disposed on the circular outer face of the cylindrical housing; and a position sensor mounted in the facing section of the rotary arm that rotates along the circular outer face, the facing section being in a facing arrangement with the circular outer face. A detection mechanism includes the scale and the position sensor detects the rotational position of the rotary arm capable of rotating within a finite angular range along the circular outer face of the cylindrical housing. The components are concentrically disposed. The actuator is suitable for use as a digital joint unit. | 06-06-2013 |
20130124128 | SELF-CALIBRATION METHOD FOR ANGLE DETECTOR, ANGLE DETECTOR, CIRCUMFERENTIAL SCALE CALIBRATION DEVICE, AND ANGLE DETECTOR CALIBRATION DEVICE - In a self-calibration method of an angle detector, an angle interval between first and second scale reader heads are set, so that a single rotation is not equally divided into an integer number of potions by a value of the angle interval and that a plurality of rotations N are equally divided into M equal portions by the value of the angle interval. Readings by the scale reader heads during N rotations of the divided circle are obtained at a pre-set data sampling interval. From differences in readings by these scale reader heads, data of the sequential two-point method relating to an angle scale error of the divided circle are obtained at the data sampling interval. The scale error of the divided circle at the data sampling interval is calculated by synthesizing the data using the fact that an average of the data for the rotations N reaches approximately zero. | 05-16-2013 |
20130081496 | WAVE GEAR DEVICE HAVING THREE-DIMENSIONAL CONTACTING INVOLUTE POSITIVE DEFLECTION TOOTH PROFILE - In a wave gear device, an involute tooth profile with the low pressure angle α (<20°) is employed as a basic tooth profile of external teeth of a flexible external gear. In the principal section of the external teeth, the tooth depth thereof satisfies 2κ | 04-04-2013 |
20130079190 | WAVE GENERATOR FOR WAVE GEAR DEVICE - The flexible bearing of the wave generator for a wave gear device is a deep-groove ball bearing in which an outer race and an inner race form an annular flexible bearing ring capable of bending in a radial direction. A ball diameter Da is set to be 5 to 15% greater than that of each model of the currently available product. Dimensions of orbital plane radii ro, ri of the inner and outer races are set so that the ratio ro/Da of the orbital plane radius ro of the inner race and the ball diameter Da, as well as the ratio ri/Da of the orbital plane radius ri of the outer race and the ball diameter Da, are both in the range of 0.51 to 0.52. With this configuration, the service life of the flexible bearing can be extended. | 03-28-2013 |
20130057116 | SEALED ROTATIONAL OUTPUT UNIT AND SEALED MOTOR ASSEMBLY - Provided with a sealed rotational output unit ( | 03-07-2013 |
20120304791 | WAVE GEAR DEVICE PROVIDED WITH TAPERED FLEXIBLE EXTERNALLY TOOTHED GEAR - In an elliptical rim neutral line of each axially perpendicular cross section in a tooth trace direction of a flexible externally toothed gear of a wave gear device, external teeth are applied with addendum modification along the external teeth tooth trace direction so that the bending stress generated at the root rim surface of the external teeth that is caused by flexing of the flexible externally toothed gear is averaged out, the maximum value thereof can be reduced, and the transferred torque of the wave gear device can be increased. | 12-06-2012 |
20120285283 | WAVE GEAR DEVICE HAVING THREE-DIMENSIONAL CONTINUOUS CONTACT TOOTH PROFILE - In a wave gear device, similarity curve tooth profiles for defining the tooth-face tooth profile of each of a flexible externally toothed gear and a rigid internally toothed gear is determined from the movement trajectory, relative to a tooth of the rigid internally toothed gear, of a tooth of the flexible externally toothed gear at a main cross-section at which the deflection factor is κ=1. Tooth profile curves, which have been subjected to profile shifting corresponding to the difference between the deflection factor κ | 11-15-2012 |
20120271459 | POSITIONING APPARATUS FOR ACTUATOR WITH WAVE GEAR DEVICE - In a positioning apparatus for an actuator, a sliding mode controller for compensating for nonlinear characteristics of a wave gear device of the actuator generates a control input u to a controlled object, based on a position command θ | 10-25-2012 |
20120229127 | MAGNETIC ABSOLUTE ENCODER AND MOTOR - A magnetic absolute encoder includes: a board-holding assembly mounted to a motor case assembly side; and a flexible printed wiring board which is held, by the board-holding assembly, in the shape of a loop surrounding multipolar and bipolar ring magnets. On the flexible printed wiring board, multipolar-side hall elements and bipolar-side hall elements are mounted and a wiring pattern relating to the hall elements are printed. The assembling work and wiring work of the magnetic absolute encoder provided with a multipolar magnetic encoder and a bipolar magnetic encoder can be performed simply in a short time. | 09-13-2012 |
20120153655 | ROBOT HAND AND FINGER MECHANISM - A robot hand converts the longitudinal extending and retracting motion of an actuating rod of a linear actuator into opening and closing motion of left and right first links via a link mechanism. The link mechanism includes left and right middle links composed of coil springs. When the left and right first links come in contact with an object to be gripped, the middle links elastically deform and expand, and the force gripping the object gradually increases due to the elastic deformation of the middle links. It is possible to prevent a large gripping force from acting suddenly on the object and to prevent the object from being deformed, damaged, or otherwise suffering harmful effects. | 06-21-2012 |
20120085188 | NONCIRCULAR BEARING, WAVE GENERATOR, AND WAVE GEAR DEVICE - A wave generator ( | 04-12-2012 |
20120068694 | METHOD OF DETECTING ABSOLUTE ROTATIONAL POSITION - Before detecting a mechanical angular absolute position θabs of a rotating shaft ( | 03-22-2012 |
20120036951 | WAVE-TYPE LINEAR MOTION MECHANISM - Disclosed is a wave-type linear motion mechanism including a hydraulic pressure chamber for applying a retention force in the axial direction to a rigid screw member which moves in a linear fashion. Regulating valves are provided in the hydraulic pressure chamber, and these regulating valves open during the rotation of a wave generator so that no hydraulic pressure is exerted on the rigid screw member which moves in a linear fashion. During the rotation of the wave generator the regulating valves close to establish an airtight state in the hydraulic pressure chamber, and a hydraulic pressure is exerted as a retention force on the rigid screw member. Although restricted by the meshing strength between the rigid screw member and a flexible screw member and the buckling strength of the flexible screw member, the retention force of the wave-type linear motion mechanism is able to be increased. | 02-16-2012 |
20120031329 | ELECTROSTATIC COATING APPARATUS - Provided is an electrostatic coating apparatus capable of insulating an electric motor electrically from a member, to which an electrostatic high voltage is applied, and reducing the size and weight of the electrostatic coating apparatus. This electrostatic coating apparatus comprises a rotary atomizing head, to which high voltage is electrostatically applied, an electrostatically grounded AC servomotor, and a spindle and a fixed insulating member for insulating the AC servomotor electrically from the rotary atomizing head and a speed-increasing device to be set at the same potential as that of the former. The spindle and the fixed insulating member have insulation distance enlarging portions of the mode, in which the creepage insulation distances from the speed-increasing device to the AC servomotor are enlarged. | 02-09-2012 |
20110304836 | METHOD FOR CREATING DRIVE PATTERN FOR GALVANO-SCANNER SYSTEM - A visible laser beam scanned by a galvano-scanner system is aligned at each of positioning points on the top surface of a master work by manual operation to record sensor position signals of position sensors on galvano-scanners. The sensor position signals on each positioning point are recorded to create a drive pattern in accordance with recorded sensor position signals. The drive pattern no longer has optics system error sources including focus error and attachment error as well as errors caused by scale, offset and the like, also eliminating the need for entering a distance as far as the top surface of the work. Therefore, the drive pattern with error components removed can be created with ease. | 12-15-2011 |
20110278983 | SEGMENTED CORE MOTOR STATOR - Stator core of motor stator is equipped with a segmented core connecting body which connects in an annular shape a segmented core having a structure whereby laminated core plates are connected and held in place in a laminated state. To connect and fix core laminated plates by clamping, first and second dowels formed in each core laminated plate are used to connect and fix common rings by pressure-fitting them to the first and second end faces at either side of the segmented core connecting body, thus integrating the segmented core connecting body. The segmented core connecting body can be integrated with a simple operation, thus significantly reducing the assembly time for the stator core. | 11-17-2011 |
20110251722 | METHOD FOR PERFORMING ADAPTIVE FRICTION COMPENSATION IN AN ACTUATOR ACCOUNTING FOR VARIATION IN FRICTION CHARACTERISTICS OF WAVE GEAR DRIVE ACCOMPANYING CHANGE IN TEMPERATURE - According to a method for performing adaptive friction compensation of an actuator including a wave gear drive, there is used as a friction compensation current applied to a motor drive current a static friction compensation current i | 10-13-2011 |
20110248661 | METHOD FOR CONTROLLING POSITIONING OF ACTUATOR COMPRISING WAVE GEAR DEVICE - A method for controlling positioning of an actuator having a wave gear device uses a strict linearization technique to compensate for the effects relative to positioning control of a load shaft in the, as caused by the non-linear spring characteristics of the wave gear device. In the method, a plant model is constructed from the actuator to be controlled, the model being linearized using a strict linearization technique; measurements are taken of the non-linear elastic deformation of the wave gear device relative to load torque; the non-linear spring model τg(θtw) is defined using a cubic polynomial with the constant defined as zero to allow the measurement results to be recreated; and the current input into the plant model and the motor position of the plant model when a load acceleration command is a command value are entered into a semi-closed loop control system for controlling the positioning of the load shaft, as a feed-forward current command and a feed-forward motor position command. | 10-13-2011 |
20110237382 | WAVE GEAR DEVICE HAVING THREE-DIMENSIONALLY CONTACTABLE SHIFTED TOOTH PROFILE - Disclosed is a wave gear device ( | 09-29-2011 |
20110154928 | WAVE GEAR DEVICE HAVING COMPOUND TOOTH PROFILE OF POSITIVE DEFLECTION MESHING - In a wave gear device ( | 06-30-2011 |
20110138952 | Method for setting non-positive deflection, maximum meshable tooth profile in flat wave gear device - In a flat wave gear device, there is determined a rack-approximated movement locus Lc1 of a flexible externally toothed gear with respect to an S-side rigid internally toothed gear accompanying rotation of a wave generator. (ρ | 06-16-2011 |
20110133382 | WAVE TYPE LINEAR MOTION MECHANISM AND HOLDING MECHANISM - In a wave linear motion mechanism ( | 06-09-2011 |
20110116962 | GEARED MOTOR ASSEMBLY - A geared motor assembly comprises a rotation-transmitting shaft for transferring output rotation of a reducer on the front side of a motor to an output shaft sensor on the rear side of the motor. A front end portion of the rotation-transmitting shaft is securely bonded to a rotation output member of the reducer by an adhesive that exhibits flexibility or elasticity after hardening, and a rear end portion of the rotation-transmitting shaft is rotatably supported by a sensor cover via a bearing in a position adjacent to the output shaft sensor. The rotation-transmitting shaft can be supported in a state free of axial runout by deformation of the adhesive and by the bearing. Consequently, the rotation angle position of the rotation output member can be detected with precision by the output shaft sensor in a position adjacent to the bearing. | 05-19-2011 |
20110111622 | ELECTRIC WIRING STRUCTURE OF HOLLOW ROTATOR - A relay connector is secured to a hollow hole forming member provided with a hollow hole in a hollow rotator so as to be coaxially located in the hollow hole in order to draw out an electric wire group from the side of one end surface in the direction of a rotation central axis line of the hollow rotator to the side of the other end surface by using the hollow hole passing through in the direction of the rotation central axis line in the hollow rotator. A first connection section is formed on one end of the direction of the rotation central axis line of the relay connector and a second connection section is formed on the other end thereof. A first electric wire side connector attached to the end of a first electric wire group is electrically and detachably connected to the first connection section and a second electric wire side connector attached to the end of a second electric wire group is electrically and detachably connected to the second connection section. | 05-12-2011 |
20110067504 | COMPLEX SENSOR AND ROBOT HAND - A complex sensor comprises a touch sensor and a proximity sensor. The touch sensor comprises a flexible pressure-sensitive sheet covering a fingertip portion. The pressure-sensitive sheet comprises a front surface film and a rear surface film composed of a flexible conductive material, an intermediate film which is sandwiched between the films in a state in which the intermediate film is electrically connected and which is composed of pressure-sensitive conductive rubber, and first to fourth electrode terminals formed on the front surface and rear surface films. The size of a load acting on the pressure-sensitive sheet and the center position of the load can be detected based on the terminal voltage. A through-hole is formed in the pressure-sensitive sheet such that the sensing surface of the proximity sensor is exposed, thus the approach of a holding object can be detected. | 03-24-2011 |
20110054820 | METHOD FOR COMPENSATING FOR ANGULAR TRANSMISSION ERROR OF WAVE GEAR DEVICE - A positioning system ( | 03-03-2011 |
20100319484 | Wave Gear Device - A bending state known as “coning,” in which the amount of bending of the flexspline gradually decreases in accordance with the distance from the open end of the spline, occurs in cup-type or “silk hat”-type wave gear devices. A tooth profile in which the tooth depth is kept constant and in which the bottom lands and top lands are parallel to each other along the tooth trace direction is used as the basic tooth profile for the circular spline and the flexspline of the wave gear device. A taper surface is formed on a part of the top land near the open end of the flexspline in the basic tooth profile, whereby a modified tooth profile is obtained. The modified tooth profile is employed as the tooth profile for both of the splines. Both of the splines can be caused to mesh together without generating coning-induced interference. Both of the splines can also be subjected to gear cutting by a simple process using a typical machining mechanism. | 12-23-2010 |
20100229395 | METHOD FOR MANUFACTURING RIGID INTERNAL GEAR OF WAVE GEAR DEVICE - A method for manufacturing a rigid internal gear of a wave gear device in which an internally toothed portion formed with internal teeth and a gear main body portion are joined integrally, the method including preforming an internal teeth-forming ring or disc for forming the internally toothed portion by using a first aluminum alloy powder; manufacturing a forging in which the internal teeth-forming ring or disc is placed in a forging die and is integrally formed on its outer side with the gear main body portion using a second aluminum alloy powder, the first aluminum alloy powder being harder and having higher abrasion resistance than the second aluminum alloy powder; and applying post-processing including cutting teeth to the forging. | 09-16-2010 |
20100212446 | WAVE GEAR DEVICE - In a cup-type or “silk hat”-type wave gear device ( | 08-26-2010 |
20100183392 | MOTOR WITH CUTTING TOOL MOUNTING HOLE - A tool holder plate ( | 07-22-2010 |
20100175503 | Wave Generator for Wave Gear Device - The flexible bearing of the wave generator for a wave gear device is a deep-groove ball bearing in which an outer race and an inner race form an annular flexible bearing ring capable of bending in a radial direction. A ball diameter Da is set to be 5 to 15% greater than that of each model of the currently available product, and dimensions of orbital plane radii ro, ri of the inner and outer races are set so that the ratio ro/Da of the orbital plane radius ro of the inner race and the ball diameter Da, as well as the ratio ri/Da of the orbital plane radius ri of the outer race and the ball diameter Da, are both 0.8 to 2% less than those ratios in each model of the currently available product. When the ball diameter and the orbital plane radii are thus set, it is possible to substantially extend the service life of the flexible bearing. | 07-15-2010 |
20100172004 | Drive Control Method for Galvano-Scanner - A galvano-scanner system ( | 07-08-2010 |
20100065678 | SELF-PROPELLED WHEEL APPARATUS OF AIRCRAFT - In a self-propelled wheel apparatus of an aircraft, a drive mechanism composed of a wave gear drive and a motor is coaxially linked to an axle of a wheel via a one-way clutch, and rotational force in the reverse direction of the aircraft is transmitted to the wheel axle via the one-way clutch. When the aircraft moves forward, the link between the wheel axle and an output shaft of the wave gear drive is cut off by the one-way clutch, and motor rotational force is transmitted to the wheel axle, causing the wheel to rotate, only when the aircraft moves backward. | 03-18-2010 |
20100065333 | DRILL BIT SHAFT STRUCTURE FOR EXCAVATION APPARATUS - The drill bit shaft structure for an excavation apparatus has a thin-walled shaft portion formed on a hollow drill bit shaft. The thin-walled shaft portion has a thinner wall than that of shaft portions of the hollow drill bit shaft adjacent to both ends of the thin-walled shaft portion. A cylindrical body provided with an adjustable joining structure is disposed so as to envelop the thin-walled shaft portion. Both ends of the cylindrical body are connected to the shaft portions of the hollow drill bit shaft adjacent to the both ends of the thin-walled shaft portion. The direction of excavation is controlled by bending the thin-walled shaft portion and the cylindrical body. | 03-18-2010 |
20090320643 | COMPOSITE WAVE GEAR DRIVE - In a composite wave gear drive, a flexspline (having a number of teeth Nf) is disposed on the inner side of first and second circular splines (numbers of teeth Nc | 12-31-2009 |
20090293659 | WAVE-GEAR-TYPE LINEAR-ACTUATION MECHANISM - A wave-gear-type linear-actuation mechanism comprises a flat-type wave gear; a lead screw that is a structural component of the wave gear and is formed on an outer peripheral surface of a first circular spline; and a linear-actuation cylinder threaded onto the lead screw, a linear-actuation cylinder | 12-03-2009 |
20090284815 | METHOD FOR ADJUSTING GALVANO SCANNER SYSTEM - In a galvano scanner system ( | 11-19-2009 |
20090260469 | FLEXSPLINE AND WAVE GEAR DEVICE - In a flexspline of a wave gear device, an annular flange thereof is constructed from a first annular part bent at a right angle from an outer peripheral edge of a diaphragm, and a second annular part caused to inwardly protrude at a uniform width from a leading end of the first annular part. It is possible for the annular flange to be disposed within the region where the diaphragm is formed, as viewed in the direction of an axis of the device. An outer diameter can be reduced to a greater extent than with a “silk hat”-shaped flexspline; and when a hollow wave gear device is manufactured, a hollow diameter can be more readily increased than in a case where a cup-shaped flexspline is used. | 10-22-2009 |
20090249918 | Finger Joint Mechanism - A finger joint mechanism ( | 10-08-2009 |
20090243599 | MULTIPLE-ROTATION ABSOLUTE ENCODER - A multiple-rotation absolute encoder attached to an actuator provided with a motor and a reduction gear comprises a multiple-rotation value counter for counting a multiple-rotation value representing a number of rotations of a rotating shaft of the motor from a predetermined origin; a memory part for storing a reduction ratio R of the reduction gear; and a counter-controlling part for setting a range of the count value of the multiple-rotation value counter from zero rotations to (R−1) rotations on the basis of the reduction ratio R stored and maintained in the memory part, resetting the count value to zero when the rotating shaft makes a single rotation in a forward direction from a state in which the count value is (R−1), and setting the count value to (R−1) when the rotating shaft makes a single rotation in a reverse direction from a state in which the count value is zero. The rotation-angle position within a single rotation of the output shaft can be specified without the multiple-rotation value counter overflowing, even when the actuator rotates continuously in one direction. | 10-01-2009 |
20090218181 | SERVO MOTOR BRAKE DEVICE - A small-sized, lightweight servo motor brake device ( | 09-03-2009 |
20090200979 | METHOD FOR COMPENSATING FOR ANGULAR TRANSMISSION ERROR OF AN ACTUATOR - The non-linear elastic deformation component included in the angular transmission error of an actuator provided with a wave gear drive is a component of the angular transmission error occurring due to elastic deformation of a flexible externally-toothed gear when the direction of rotation of the motor shaft changes. This component can be analyzed by driving the motor in a sine-wave shape. A model of the non-linear elastic deformation component (non-linear model) obtained from the analysis results is used to store data or a function for compensating for this component in a motor-control device. Compensation for the non-linear elastic deformation component (θ | 08-13-2009 |
20090139358 | Method For Setting Gear Tooth Profile In Flat Wave Gear Device On Side Where Gears Have Same Number Of teeth - In a flat wave gear device in which a flexible externally toothed gear and the rigid internally toothed gear have the same number of teeth, an arcuate tooth profile is imparted to a flexible externally toothed gear, a contact point C between tooth profiles of a flexible externally toothed gear and a D-side rigid internally toothed gear is determined from an arc center A of the arcuate tooth profile of the flexible externally toothed gear and from a momentary center S of relative movement between the gears, and a main part of a tooth profile to be formed in the D-side rigid internally toothed gear is calculated based on the contact point. The tooth profile of the D-side rigid internally toothed gear can be accurately designed; therefore, meshing between the gears can occur with zero backlash, ratcheting torque can be increased, and continuous meshing can occur across a wide range of the movement locus of the tooth profiles of both gears. The load capability of the flat wave gear device can accordingly be increased. | 06-04-2009 |
20090139357 | Method For Setting Nonpositive Deflection, Maximum Meshable Tooth Profile In Flat Wave Gear Device - In a flat wave gear device, there is determined a rack-approximated movement locus Lc | 06-04-2009 |
20090114054 | FINGER UNIT FOR ROBOT HAND AND METHOD OF ASSEMBLING THE SAME - A multi-joint finger unit ( | 05-07-2009 |
20090025500 | WAVE GEAR DEVICE - A wave gear device is proposed having an anti-ratcheting mechanism having a simple configuration, wherein a center through-hole is formed in a cylinder hub of a wave generator, a small-diameter shaft end portion of a rotating input shaft is concentrically inserted in the center through-hole, and the two members are fastened by a fastening bolt, and a friction ring is concentrically sandwiched between the small-diameter shaft end portion and the cylinder hub and pressed in the radial direction with a prescribed force, whereby when transmission torque from the rotating input shaft to the wave generator | 01-29-2009 |
20080297867 | METHOD FOR ADJUSTING DRIVE CHARACTERISTICS OF SCANNER DRIVER OF GALVANOMETRIC SCANNER - A scanner driver of a galvanometric scanner system includes an analog drive circuit; a control unit | 12-04-2008 |