JP4953599B2 - Grinding method and grinding apparatus for workpiece profile - Google Patents

Description

  The present invention relates to a workpiece profile grinding method and a grinding apparatus.

  The present invention is particularly applicable to grinding work profile portions that are substantially or precisely arc-shaped. The present invention is suitable for grinding workpiece profile portions on the workpiece outer peripheral surface with a profile radius of less than 2 mm, which are subject to tolerances of less than 4-5 μm for shape deviation and adjacent straight lines of the profile Alternatively, it is smoothly connected to the curved contour portion, that is, tangentially.

  There is a wide choice in the market for versatile, multi-axis, numerically controlled grinding machines that have high manufacturing accuracy and a profile of rotating workpieces of high tensile, hardened or non-hardened materials for a wide variety of uses. Suitable for precision grinding. This precision grinding is subject to high demands on workpiece profile accuracy and surface quality. The machines are generally very similar in the assembly and placement of the working shafts of these workpieces.

One known embodiment is shown schematically in FIG. The first and second positioning slides 10 and 11 are arranged on the machine support / base 3 in a composite slide shape. The rotary head 15 installed on the composite slides 10 and 11 is equipped with the grinding machine spindle 1. A grinding tool, in particular a grinding wheel 2, can be attached to the grinding machine spindle 1. Thanks to the composite slides 10, 11, the grinding machine spindle 1 and the grinding tool are movable in a straight line along the first machine axis X and a straight line along the third machine axis Z which is perpendicular to the first machine axis. . The rotary head 15 enables the rotation of the grinding machine spindle 1 around the rotation axis C to be perpendicular to the X axis and parallel to the Z axis. This swivel function allows the grinder spindle to be set at any angle to the workpiece.

  Further, a third positioning slide 12 is installed on the machine table 3, and a work spindle 4 is attached on the third positioning slide 12 to accommodate a workpiece 5 defined for machining. By operating the positioning slide 12, the spindle 4 can move on a straight line along the second mechanical axis Y. The second mechanical axis Y travels at right angles to the first and third mechanical axes X and Z.

  All motion axes, ie motion, are NC controlled. During grinding, several NC axes, ie X, Y, Z and / or B axes, operate simultaneously according to the workpiece profile being manufactured. Inevitable positional deviations due to axial speed, axial acceleration, and axial loading result in small contour deviations in the workpiece profile and exceed the allowable range despite the extreme tolerance requirements.

  Accordingly, one object of the present invention is to reduce undesirable profile deviations in the machined workpiece by introducing a method and apparatus of the type described at the outset.

  This object is achieved by a method and device according to claims 1 and 8, respectively.

In the method and apparatus according to the invention for grinding a substantially or true arc-shaped profile part of a workpiece on a grinding machine, the workpiece is mounted on a workpiece spindle, which can be pivoted about a pivot axis Installed on a rotating table. The set workpiece is moved together with the work spindle to a position where the distance to the center in the radial direction of the profile portion with respect to the turning axis of the turning table is minimized. This profile portion is then polished.

  The present invention is the fact that the profile deviation is minimized when the profile part is generated to the aforementioned maximum accuracy by moving only one NC axis as much as possible, especially at high feed rates and accelerations on complex operating axes. Is used.

  By making it possible to position the workpiece with high precision by the arrangement of the operating axes of the machine according to the present invention, an important arc-shaped part of the workpiece profile can be generated by a swiveling action as only one axis operation. This turning action is generated using a turning table on which a work spindle is arranged.

  If the workpiece profile portion to be polished is not an exact arc shape, the distance from the pivot axis to the approximate radial center of the profile portion is minimized, i.e., the position of the workpiece is necessarily included in the grinding process. Adjustments are made to minimize the acceleration of the remaining machine axes.

  The present invention will now be described in detail with reference to the preferred embodiments illustrated in the accompanying drawings.

FIG. 2 schematically shows an apparatus for grinding a profile of a rotating workpiece 5 in a preferred embodiment according to the invention. This multi-axis numerically controlled grinding machine is constituted by a mechanical support / base 3 on which a composite slide having two positioning slides 10 and 11 is arranged. The grinding machine spindle 1 in the composite slide 10, 11 is mounted, rotating the first horizontal rotation axis B as a center. The machine base 3 further comprises a third positioning slide 14 for the work spindle 4.

  The grinder spindle 1 can accommodate a grinding tool, in particular a grinding wheel 2 or another tool suitable for the desired machining. This is installed on the machine table 3 so that the direction of the first machine axis X and the direction of the second machine axis Z perpendicular to the machine axis X can be linearly displaced. This can be connected to the composite slides 10, 11 via the swivel head 15 as is known from the prior art of the present invention. However, this is not essential and is not necessary in this embodiment.

The machine table 3 includes a third positioning slide 14 on the opposite side of the grinding machine spindle 1, and the turntable 6 is disposed thereon. The turning table 6 is movable in the linear direction of the third machine axis Y. Two positioning slides 12 and 13 are further arranged in a cross structure on the turntable 6. A work spindle 4 is rotatably disposed at the upper end of the positioning slide 13 and accommodates a workpiece 5 to be machined. The workpiece 5 rotates about a horizontal axis A that coincides with the axis of the work spindle 4.

  The composite slides 12 and 13 enable the linear movement of the work spindle 4 along the stroke axis direction U and the stroke horizontal axis direction V. It is irrelevant that one of the two slides 12, 13 is up and one is down.

The turning table 6 enables the composite slides 12 and 13 to turn and allows the work spindle 4 to turn about the turning axis D. The swivel axis D travels in the vertical direction, that is, travels in a direction perpendicular to the stroke axis direction U and the stroke horizontal axis direction V.

By turning around the turning axis D and moving appropriately along the Y, U and V axes, the workpiece 5 can be moved to the grinding wheel 2 and can optionally be arranged for the next machining. It becomes.

  Referring to FIG. 3, an example of this optimal positioning is shown. As a single machining example, a workpiece 5 is shown, which profile includes an arc-shaped profile portion 7. This profile portion 7 is ground to the highest accuracy. In order to guarantee this, in the present invention, before the workpiece is machined, the radial center of the arc-shaped profile portion 7 of the workpiece in the axial directions U and V corresponding to the pivot axis D is shown in FIG. As shown, it moves to a position that coincides with the turning axis D of the turning table 6.

  Thereby, the swivel motion of the swivel table 6 alone is sufficiently possible for the production of the arc-shaped part 7 of the workpiece profile, and the contour profile is not lowered by overlapping the motions of several working shafts. The same applies to the case where the radius center of the arc-shaped portion 7 is not arranged on the turning axis D.

  If the workpiece 5 likewise has further arc-shaped profile portions 8, 9 to be ground with the highest precision, the grinding process is interrupted after grinding the first arc-shaped portion 7 of the workpiece profile and the next profile The process is not resumed until the radius center of the portion is just located on the turning axis D of the turning table 6.

  If the workpiece profile portions 7, 8, 9 are only substantially arcuate, the position of the workpiece 5 relative to the pivot axis D is kept as low as possible during the grinding of the linear machine axis included in the profile generation. Is selected. The distance from the radius center is therefore not zero. Instead, the approximate radius center is guided to coincide with the pivot axis.

  The apparatus according to the present invention allows the profile to be ground on a single machine axis by reducing simultaneous axis motion and increases the accuracy of the profile.

1 shows a schematic view of a tool grinding machine in the prior art of the present invention. 1 shows a schematic view of a preferred embodiment of the grinding apparatus of the present invention. The enlarged schematic diagram in the top view of the grinding apparatus of this invention shown by FIG. 2 is shown. FIG. 4 shows an enlarged schematic view of a detailed E portion shown in FIG. 3.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Grinding machine spindle 2 Grinding wheel 3 Machine support / stand 4 Work spindle 5 Work piece 6 Turning table 7/8/9 Arc-shaped work profile part 10 First positioning slide 11 of grinding machine spindle 2nd positioning slide of grinding machine spindle 12 Workpiece spindle first positioning slide 13 Work spindle second positioning slide 14 Turning table positioning slide 15 Rotating head A Workpiece rotation axis B Grinding wheel rotation axis C Grinding machine spindle rotation axis D Work spindle positioning slide Swivel axis X Grinding wheel stroke axis direction Y Turning table feed direction Z Grinding wheel stroke vertical direction U Work spindle stroke axis direction V Work spindle stroke horizontal axis direction

Claims (8)

In a method for grinding a profile of a workpiece having a disk shape with a central axis on a grinding machine, the workpiece has a substantially arc shape or a true arc shape profile portion having a radius center on an outer peripheral surface thereof. And this way
Comprising the steps of mounting the workpiece on the workpiece spindle, the workpiece spindle is arranged on the swivel table has an axis of rotation, said turntable is pivotable about a pivot axis, said pivot axis Moveable in a first linear direction perpendicular to the first linear direction and in a second linear direction perpendicular to the first linear direction and the pivot axis, whereby the rotation of the work spindle The axis is aligned with the central axis of the workpiece;
Moving the installed workpiece together with the work spindle so that the distance to the radius center of the profile portion relative to the rotation axis of the swivel table is minimized;
A step of grinding the profile portion using a grinding tool mounted on a main spindle of the grinder , wherein the grinding tool and the work spindle are moved relatively independently of each other. How to be.   The method according to claim 1, wherein, in the case of a true arc shape profile, the installation work is moved together with the work spindle until the radius center of the arc shape profile portion is arranged on the rotation axis of the turning table.   2. The method according to claim 1, wherein in the case of only a substantially arc-shaped profile part, the position of the workpiece relative to the rotational axis is selected such that the acceleration of the mechanical axis of the grinding machine involved in the generation of the grinding profile part during grinding is minimized.   2. A method according to claim 1, wherein the work spindle moves linearly to reach a defined position. To reach a defined position, the workpiece spindles The method of claim 4 wherein additionally pivot about the axis of rotation.   The method of claim 1 wherein the workpiece rotates during grinding. If the workpiece profile has several approximately arc-shaped or true arc-shaped profile parts,
a. The installation workpiece is moved to a first position where the distance to the radius center of the first profile portion relative to the rotation axis of the swivel table is minimal; and b. This first profile portion is then ground,
c. The grinding process is interrupted after grinding of the first workpiece profile portion,
d. The installation workpiece moves with the work spindle to a second position where the distance to the radius center of the second profile portion relative to the rotation axis of the swivel table is minimal, and e. This second profile portion is then ground,
f. The method according to claim 1, wherein the steps c to e include a step that is repeated many times until all profile portions are ground. In a method for grinding a workpiece profile on a grinding machine, the workpiece has a generally arcuate or true arcuate profile portion with a radius center, the method comprising:
A step of mounting a workpiece on a work spindle, wherein the work spindle has a rotation axis and is arranged on a turning table, the turning table being rotatable about the turning axis; Movable in a first linear direction perpendicular to the first linear direction, and movable in a second linear direction perpendicular to the first linear direction and the pivot axis,
Moving the installed workpiece together with the work spindle so that the distance to the radius center of the profile portion relative to the rotation axis of the swivel table is minimized;
And grinding the profile portion.
If the workpiece profile has several approximately arc-shaped or true arc-shaped profile parts,
a. The installation work piece moves to the first position where the distance to the radius center of the first profile portion relative to the rotation axis of the swivel table is minimized, and
b. This first profile portion is then ground,
c. The grinding process is interrupted after grinding of the first workpiece profile portion,
d. The installation workpiece moves together with the work spindle to a second position where the distance to the radius center of the second profile portion with respect to the rotation axis of the swivel table is minimized, and
e. This second profile portion is then ground,
f. The steps c to e include a step that is repeated many times until all profile portions are ground.

Images