Mechanical centering apparatus and method
First Claim
1. A centering apparatus used in conjunction with a workpiece having a periphery, comprising:
- a workpiece spindle operable to rotate the workpiece about a rotational axis; and
a centering head comprising a mount movable in a movement direction lying in a plane perpendicular to the rotational axis, the movement direction being generally a radial line extending outwardly from the rotational axis, a swivel head pivotably supported on the mount and pivotable about a pivot axis parallel to the rotational axis, the swivel head comprising a pair of bearings spaced apart along a direction lying generally perpendicular to the movement direction, each of the bearings having a bearing axis parallel to the rotational axis, a distance measuring device operable to measure a distance between the periphery of the workpiece and a measurement location on the mount as a runout curve as the workpiece is rotated-about the rotational axis, and a centering drive operable to contact the bearings to the workpiece and thereafter to move the mount and hence the workpiece along the movement direction responsive to the runout curve measured by the distance measuring device, until the workpiece is centered.
3 Assignments
0 Petitions
Accused Products
Abstract
A workpiece (22) having a periphery is centered using a centering apparatus (20) having a workpiece spindle (24, 28) operable to rotate the workpiece (22) about a rotational axis (26), and a centering head (29). The centering head (29) includes a mount (30) movable in a movement direction lying in a plane (40) perpendicular to the rotational axis (26), and generally along a radial line (38) extending outwardly from the rotational axis (26). A swivel head (32) is pivotably supported on the mount (30) and is pivotable about a pivot axis (46) parallel to the rotational axis (26). The swivel head (32) has a pair of bearings (66) spaced apart along a direction lying generally perpendicular to the movement direction, with the bearing axis of each bearing (46) parallel to the rotational axis (26). A distance measuring device (34) is operable to measure the distance between the periphery of the workpiece (22) and a measurement location on the mount (30). The method includes mounting the workpiece (22) on the spindle (24, 28), positioning the centering head (29) at a location adjacent to the periphery (82) of the workpiece (22), rotating the spindle (24, 28) to rotate the workpiece (22), and measuring a runout curve using the distance measuring device (34). The centering head (29) is moved to contact the bearings (46) to the workpiece (22). The workpiece (22) is pushed with the bearings (46) in a direction and by an amount so as to reduce a constant term of the runout curve toward zero.
47 Citations
17 Claims
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1. A centering apparatus used in conjunction with a workpiece having a periphery, comprising:
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a workpiece spindle operable to rotate the workpiece about a rotational axis; and
a centering head comprising a mount movable in a movement direction lying in a plane perpendicular to the rotational axis, the movement direction being generally a radial line extending outwardly from the rotational axis, a swivel head pivotably supported on the mount and pivotable about a pivot axis parallel to the rotational axis, the swivel head comprising a pair of bearings spaced apart along a direction lying generally perpendicular to the movement direction, each of the bearings having a bearing axis parallel to the rotational axis, a distance measuring device operable to measure a distance between the periphery of the workpiece and a measurement location on the mount as a runout curve as the workpiece is rotated-about the rotational axis, and a centering drive operable to contact the bearings to the workpiece and thereafter to move the mount and hence the workpiece along the movement direction responsive to the runout curve measured by the distance measuring device, until the workpiece is centered. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A centering apparatus for a workpiece having a periphery, comprising:
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a workplace spindle operable to rotate the workpiece about a rotational axis; and
a centering head, comprising a mount movable in a movement direction lying in a plane perpendicular to the rotational axis, the movement direction being generally a radial line extending outwardly from the rotational axis, and a swivel head, comprising a central body, pivotably connected to the mount and pivotable about a pivot axis parallel to the rotational axis, a pair of arms extending outwardly on opposite sides of the body and parallel to the plane, a pair of rotating bearings, one of the bearings being mounted on each of the arms and having a bearing axis parallel to the rotational axis;
a pivot structure extending between the mount and the central body of the pivot head, the pivot structure being operable to pivot the swivel head about the pivot axis parallel to the rotational axis; and
a distance measuring device operable to measure the distance between the periphery of the workpiece and a measurement location on the mount, and a centering drive operable to contact the bearings to the workpiece and thereafter to move the mount along the movement direction responsive to the distance measuring device, until the workpiece is centered. - View Dependent Claims (8, 9, 10, 11)
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12. A method for centering a workpiece, comprising the steps of
furnishing a workpiece having a periphery; -
providing a centering apparatus comprising a workpiece spindle operable to rotate the workpiece about a rotational axis; and
a centering head comprising a mount movable in a movement direction lying in a plane perpendicular to the rotational axis, the movement direction being generally a radial line extending outwardly from the rotational axis, and a swivel head pivotably supported on the mount and pivotable about a pivot axis parallel to the rotational axis, the swivel head comprising a pair of bearings spaced apart along a direction lying generally perpendicular to the movement direction, each of the bearings having a bearing axis parallel to the rottional axis, a distance measuring device operable to measure the distance between the periphery of the workpiece and a measurement location on the mount;
mounting the workpiece on the spindle;
positioning the centering head at a location adjacent to the periphery of the workpiece;
rotating the spindle to rotate the workpiece;
positioning the centering head at a location adjacent to the periphery of the workpiece;
rotating the spindle to rotate the workpiece;
measuring a runout curve using the distance measuring device of the centering head, the runout curve having a constant term and a variable term;
moving the centering head along the movement direction until the bearings contact the workpiece; and
centering the workpiece by pushing against the periphery of the workpiece with the bearings in a direction and by an amount so as to reduce the constant term of the runout curve toward zero. - View Dependent Claims (13, 14, 15, 16, 17)
repeating the steps of rotating, measuring a runout curve, moving, and pushing. -
14. The method of claim 12, wherein the step of pushing includes the step of
pushing the workpiece at a location corresponding to about a maximum in the variable term of the runout curve, and by an amount of about the constant term of the runout curve. -
15. The method of claim 12, wherein the step of furnishing the workpiece includes the step of
furnishings a glass lens as the workpiece. -
16. The method of claim 12, wherein the step of providing the centering apparatus includes the step of
supporting the distance measuring device on the mount. -
17. The method of claim 12, wherein the step of providing the centering apparatus includes the step of
providing the distance measuring device as an optical distance measuring device.
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Specification