Patent application number | Description | Published |
20110080594 | NON-CONTACT SCANNING SYSTEM - A non-contact scanning system for three dimensional non-contact scanning of a work piece is disclosed for use in various applications including reverse engineering, metrology, dimensional verification and inspection The scanning system includes a scanner carried by an arcuately configured gantry assembly and a fixture for carrying a work piece. The gantry assembly includes a fixed arcuately shaped gantry member and a telescopic arm that is movable in an arcuate direction relative to a rotary table that carries the object to be scanned. A scanner is mounted on the end of the telescopic member and is movable in a radial direction. Objects to be scanned are mounted on a rotary table that is also movable in an X-Y direction or alternatively in the X, Y and Z directions under the control of a motion control subsystem, a machine control user interface subsystem and an image capture. The configuration of the scanning system in accordance with the present invention provides a spherically shaped scanning envelope which facilitates three dimensional modeling of the work piece. | 04-07-2011 |
20120200860 | NON-CONTACT SCANNING SYSTEM - A non-contact scanning system is disclosed for three dimensional non-contact scanning of a work piece for use in various applications including reverse engineering, metrology, dimensional verification and inspection The scanning system includes a scanner assembly, a gantry assembly and a fixture assembly. The gantry assembly and the fixture assembly are carried by a table or base. The scanner assembly is carried by the gantry assembly. The fixture assembly is rotatable about two (2) orthogonal axes axis under the control of a control system. The fixture assembly optionally allows the height of the fixture assembly to be adjusted relative to the plane of the table by way of rectilinear movement. The scanning system provides a spherically shaped scanning envelope which facilitates three dimensional modeling of a work piece. | 08-09-2012 |
20130063731 | NON-CONTACT SCANNING SYSTEM - A non-contact scanning system for three dimensional non-contact scanning of a work piece is disclosed for use in various applications including reverse engineering, metrology, dimensional verification and inspection The scanning system includes a scanner carried by an arcuately configured gantry assembly and a fixture for carrying a work piece. The gantry assembly includes a fixed arcuately shaped gantry member and a telescopic arm that is movable in an arcuate direction relative to a rotary table that carries the object to be scanned. A scanner is mounted on the end of the telescopic member and is movable in a radial direction. Objects to be scanned are mounted on a rotary table that is also movable in an X-Y direction or alternatively in the X, Y and Z directions under the control of a motion control subsystem, a machine control user interface subsystem and an image capture. The configuration of the scanning system in accordance with the present invention provides a spherically shaped scanning envelope which facilitates three dimensional modeling of the work piece. | 03-14-2013 |
20150126342 | RESISTANCE BAND ASSEMBLY AND A METHOD OF VARYING A RESISTIVE FORCE APPLIED THEREBY - A method of varying a resistive force applied by exercise equipment including providing a resistance band assembly for providing resistive force during the performance of an exercise. The resistance band assembly includes a housing having a first end, a second end, and a longitudinal axis extending therebetween. A bore is defined in the housing and a connector is provided in the bore. The connector includes first and second surfaces and a hole is defined in the connector and extends between the surfaces. A disc is also provided in the bore and also has a first and second surface. An aperture is defined in the disc and extends between the first and second surfaces thereof. A first and second resilient member is provided and these resilient members are selectively engageable with the resistance band assembly to provide a first resistive force during the performance of an exercise. | 05-07-2015 |
20150126345 | VARIABLE RESISTANCE BAND ASSEMBLY AND METHOD OF USING THE SAME - A variable resistance band assembly may include a first end and a second end spaced apart from the first end. Additionally, a first disc is proximate the first end defining a plurality of holes arranged in a pattern extending through the first disc, and a second disc is stacked adjacent the first disc along an assembly axis, the second disc defining a plurality of holes arranged in a similar pattern to that of the first disc and axially aligned therewith. A connector is proximate the second end and a first resilient member is releasably attached to the connector and extending through one aligned hole in the first and second discs and releasably attached to the first disc. | 05-07-2015 |
20150126346 | ATTACHMENT ASSEMBLY FOR AN EXERCISE DEVICE AND AN EXERCISE DEVICE INCORPORATING THE SAME - An attachment assembly for an exercise device and a method of using the same. The device includes a first end and a second end; a first J-hook defining a portion of the second end; and a second J-hook defining a portion of the second end; wherein the first and second J-hooks are releasably attach the device to a separate exercise structure. The method includes providing a ring on the exercise structure, wherein the ring defines an aperture; affecting relative movement of the ring relative to an exercise assembly, defining a gap between two inverted J-hooks; positioning the ring in the gap beneath two ends of the J-hooks; affecting a relative rotation of the ring relative to the two J-hooks such that the ring is beneath a J-hook passageway defined by a downwardly facing concave surface on each J-hook; and engaging the ring with the concave surface on each J-hook. | 05-07-2015 |
20150126347 | INSERT FOR USE WITH A RESISTANCE BAND ASSEMBLY AND A METHOD OF USING THE SAME - An exercise device including a housing with first and second ends and a longitudinal axis extending therebetween. A bore is defined in the housing and a disc member is located within the bore. The disc member includes a side surface extending between first and second surfaces, said side surface being generally parallel to the longitudinal axis. An aperture is defined in the disc member and extends between the first and second surfaces. The aperture is bounded and defined by a face that extends between the first and second surfaces of the disc member. A friction-reducing material is provided on the face. A first resilient member extends between the first and second ends of the housing and passes through the aperture. An aperture adjustment member may be engaged with an enlarged end of the resilient member to retain the same in the aperture in the disc member. | 05-07-2015 |
20150126348 | FITNESS TRAINING STATION - A fitness station for performing exercises using resistance devices; The station includes a base anchorable to a horizontal surface; a support extending upwardly from the base; a first arm extending outwardly from the support a distance vertically above the base; a second arm extending outwardly from the support a distance vertically above the first arm; a third arm extending outwardly from the support a distance vertically above the second arm; a fourth arm and fifth arm extending outwardly from the support in a different direction to the first and second arms; wherein the fifth arm is located a distance vertically beneath the fourth arm. A plurality of attachment members are provided on one or more of the base, the support, the first, second or third arms, each attachment members being configured to have a resistance device selectively secured thereto. | 05-07-2015 |
20150133276 | STRENGTH TRAINING AND STRETCHING SYSTEM AND RESISTANCE BAND ASSEMBLY FOR USE THEREWITH - A fitness station and resistance band assembly and a method of using the same. The station includes a base; a support extending upwardly from the base; a first arm extending outwardly from the support; and a plurality of attachment members provided on one or more of the base, the support or the first arm. The assembly is selectively engageable with one of the attachment members and is operable to apply a resistive force during a performance of an exercise. The assembly includes a housing that is at least partially rigid and a first resilient member for providing the resistive force located within the housing. The assembly is attached to one of the attachment members on the fitness station. A pulling motion is applied to the assembly during the performance of an exercise. A resistive force is generated within the assembly in response to the applied pulling motion. | 05-14-2015 |