Patent application number | Description | Published |
20090242224 | MACHINING APPARATUS WITH MECHANISM FOR RETAINING AXIAL POSITION OF GUIDE MEMBER - When a slide member mounted with a tool reciprocates on a guide member reach one end and the other end positions of the guide member, permanent magnets provided on the guide member and the permanent magnets provided on the slide member repel each other to give the guide member forces for reversing its moving direction. The guide member is provided to be movable with respect to a base and repulsive forces between permanent magnets provided on the base and permanent magnets provided on the guide member are used to retain an axial position of the guide member. | 10-01-2009 |
20090292503 | MACHINE TOOL WITH NUMERICAL CONTROLLER AND ON-MACHINE MEASURING DEVICE - A machine tool is fitted with a position detector for detecting a position of a moving axis of the machine tool and an on-machine measuring device for measurement on the machine tool. An axial position detection signal output from the position detector and a measurement signal output from the on-machine measuring device are received through interfaces by a numerical controller that controls the machine tool. These interfaces are designed so that the numerical controller receives the axial position detection signal and the measurement signal with the same timing. | 11-26-2009 |
20100030368 | MACHINE TOOL SYSTEM FOR MEASURING SHAPE OF OBJECT TO BE MEASURED BY USING ON-BOARD MEASURING DEVICE - In a simultaneous multi-axis measuring machine tool system including linear drive axes and rotation axes to measure a surface shape of an object to be measured by using an on-board measuring device having a probe mounted, at one end thereof, with a spherical contactor, a numerical controller controls driving of the linear drive axes and the rotation axes so that a central axis of the probe is always oriented in a direction perpendicular to the surface of the object to be measured and that the spherical contactor of the probe comes in contact with and follows a surface of the object to be measured. | 02-04-2010 |
20100101105 | METHOD OF MEASURING SHAPE OF WORKPIECE BY USING ON-BOARD MEASURING MACHINE FOR CARRYING OUT TEMPERATURE DRIFT CORRECTION AND MACHINE TOOL HAVING ON-BOARD MEASURING MACHINE - In a machine tool having an on-board measuring machine and controlled by a numerical controller, a method of measuring a shape of a workpiece presets a reference point for temperature drift correction on the workpiece, moves a probe to the reference point, resets a coordinate system of the probe to correct a temperature drift of the probe, and carries out shape measurement of the workpiece along a first measuring path. Next, the method moves the probe to the reference point again, resets the coordinate system of the probe to correct a temperature drift of the probe again, and carries out shape measurement of the workpiece along a second measuring path. Thereafter, similar temperature drift correction is carried out for each measuring path until the shape measurement of the workpiece is carried out along the last measuring path. | 04-29-2010 |
20110232118 | CONTACT TYPE MEASUREMENT DEVICE HAVING FINE CONTACT FORCE ADJUSTMENT MECHANISM - A contact type measurement device performs measurement with displacement of a probe, while a contact member attached to the probe is in contact with an object to be measured. Data on the relationship of a contact force of the probe to the object to be measured with an angle between the central axis of the probe and the direction of gravity, the amount of displacement of the probe, and a fluid pressure for applying a pushing-out or pulling-in force to the probe is stored in advance and, on the basis of this data, the fluid pressure or the amount of displacement of the probe is controlled to automatically and precisely adjust a fine contact force of the probe to the object to be measured. | 09-29-2011 |
20110246115 | METHOD FOR CALCULATING PROBE MOUNTING POSITION IN ON-MACHINE MEASURING DEVICE - A measurement program is created for measurement performed by moving X- and Z-axes so that a central axis of a probe is perpendicular to the surface of a reference sphere, and errors are obtained between original probe position data and probe position data obtained by measurement performed at two different angles θ | 10-06-2011 |
20110299949 | TOOL HOLDER WITH VARIABLE TOOL ROTATION RADIUS, MACHINE TOOL WITH TOOL HOLDER, AND MACHINING METHOD USING MACHINE TOOL - Since a tool holder is formed of a structure which is elastically deformed by a centrifugal force produced as the tool holder rotates around a rotation center axis, the rotation radius of a tool with a cutting edge directed to the rotation center axis varies from zero to an arbitrary value. The structure of the tool holder includes two beams elastically deformable to the same degree in opposite directions by the centrifugal force, and centrifugal force components acting on the two beams cancel each other so that a rotation balance is maintained even when the rotational speed of the tool holder is changed. | 12-08-2011 |