DE2754499A1 - Micrometer adjustment for tool indexable cutter - has cylindrical body for displacing and clamping indexable plate about parallel rotating cylinder - Google Patents

Abstract

The micrometer adjuster is used for an indexable tool tip. A clamp presses the tip against a support. Each cutting edge (28) of the indexable tip (4) has a parallel rotating cylinder (17) with a flat face for adjustable displacement of the indexing tip parallel to its support (16). An additional rotation cylinder (20) is provided whose longitudinal axis is at right angles to the first rotating cylinder. This ensures displacement of the tips parallel to the support (16) is a direction normal to the first displacing direction.

Description

Micro adjustment device for indexable inserts "

The invention relates to a micro-adjusting device for indexable inserts in base bodies of cutter heads, tool holders or the like with a clamping device for pressing the insert against a system.

In order to get an exact plan and concentricity, it was previously necessary to to grind the inserts extremely precisely. Standard plates that have been customary up to now have a Accuracy of + 0.015, while milling cutter accuracies from 0.003 to 0.001 mm are required. To achieve such great accuracies, milling cutters and Inserts be machined precisely, which requires a lot of time and effort.

It is also known to use so-called inaccuracy plates, which, however, are ground in the tool with special die-cutting machines after clamping Need to become. This grinding in or over-grinding to achieve the required Axial runout and concentricity require additional work.

The invention is based on the object of a micro-adjustment device for indexable inserts, with the in simply every single one Insert brought into the correct relative position with accuracy and during operation can be maintained.

According to the invention, this object is essentially achieved by that at least one arranged essentially parallel to a cutting edge of the insert rotatable cylinder is provided, with an axially parallel flat surface with rounded longitudinal edges for adjustable displacement of the insert in parallel to their installation and along the clamping device.

The invention enables both negative and positive Clamp indexable inserts in the shortest possible time with face and concentricity. By the rounding according to the invention of the longitudinal edges of the flat surface. can the micro setting can be carried out continuously and steadily with any precision.

According to a further feature of the invention, another is rotatable Cylinder provided, the longitudinal axis of which is substantially perpendicular to the longitudinal axis of the first rotatable cylinder runs parallel to the displacement of the insert to their installation in a direction approximately perpendicular to the first displacement direction.

According to a first embodiment is in particular for light Sections, a slotted heavy-duty clamping sleeve used as a rotatable cylinder.

In particular with knife bodies with a narrow tooth pitch prove to be Heavy-duty clamping sleeves as more cost-effective. It is particularly advantageous if the axially parallel flat surface approximately evenly on both sides of the slot of the Heavy tensioning sleeve runs.

For heavy cuts it is used as a rotatable cylinder, after another Embodiment of the invention, a solid pin used.

For the adjustment of the concentricity an eccentric is expediently acting hollow cylinder sleeve used as a second rotatable cylinder.

The hollow cylinder sleeve is advantageously provided with an internal thread provided and for fastening is arranged in a bore in the base body Differential screw.

While heavy-duty sleeves are used as setting means without a safety device When using solid pins, it is advantageous to use a locking pin Provide against axial and radial displacement.

According to a first possible embodiment, the locking pin is can be screwed into a bore running obliquely to the axis of the rotatable cylinder. It is useful if the locking pin is at one axial end of the rotatable Cylinder is applied.

The locking pin or brake pin can, however, according to a modified one Embodiment, attack approximately perpendicular to the longitudinal center of the rotatable cylinder, this expediently having a groove in which the locking pin engages.

In a preferred embodiment of the invention serves as Clamping device for the insert has a fastening screw with a conical Section and a slotted, expandable by the fastening screw and this surrounding spring element.

Further advantages and features of the invention are based on the drawing explained in more detail, which schematically represents an embodiment. It shows: 1 shows a side view of a cutter head with the micro-adjustment device according to the invention, FIG. 2 shows a section along the line I-I in FIG. 1, and FIG. 3 shows a plan view to the embodiment according to FIG. 1.

In Fig. 1 is a partial section from a cutter head in side view shown, with an inventive adjustable insert in a base body 1 of a cutter head.

In a recess 2 of the base body 1 is one against a plant 16 horizontal indexable plate 4 is provided, a fastening screw for securing it 5 with a conical section 14 is used, with the help of which a slotted spring element 6 can be spread more or less wide, whereby the insert 4 against the system 16 is pressed.

The slotted spring element 6 has flattened parts, i. H. on the one hand a contact area 7 between spring element 6 and insert 4 and on the other hand, a contact sbere I 8 between the spring element and a system 3 in the recess 2. A chip run-off surface 15 is provided in a manner known per se.

According to the invention, a rotatable cylinder 17 is below the insert 4, the axis of the rotatable cylinder 17 being parallel to a cutting edge 28 the Insert 4 runs. The rotatable cylinder 17 is at Drawn in the embodiment of FIG. 1 as a heavy-duty clamping sleeve with a slot 30. On both sides of the slot 30, the rotatable cylinder 17 has an axially parallel one flat surface 19 with rounded longitudinal skates. By turning the heavy-duty clamping sleeve 17 about its axis is an eccentric effect on the side surface of the insert 4 exercised so that it is parallel to the system 16 (in Fig. 1 from bottom to top or

vice versa) can be moved. This training ensures that when clamping or replacing indexable inserts 4 in the base body 1, the required Axial run-out using a micrometer clock by simply turning the rotatable cylinder 17 is adjustable in the simplest way.

For this purpose, the fastening screw 5 is first loosened a little, so that the plate 4 is displaceable. As soon as the required (radial) position is achieved is, by tightening the fastening screw 5, the insert 4 is fixed and immovable clamped against the system 16.

In Fig. 1 two possibilities are shown, the rotatable cylinder 17 to secure against axial displacement.

One possibility provides a locking pin 24 that is attached to a Bore 23 'is arranged, which runs in the base body 1. The locking pin is then set down 24 against a rear axial end 25 of the rotatable cylinder 17 (see Fig. 2).

According to a second embodiment, which is also indicated in FIG is, a locking pin 27 is inserted in a bore 23 ″, the bore runs obliquely against the axis of the rotatable cylinder 17 and approximately in the axial Center intersects the circumference of the rotatable cylinder. The twistable cylinder can how can be seen from Fig. 2, have a central channel 26, in which the locking pin 27 engages.

In the sectional view of FIG. 2, which is approximately along the plane I-I of Fig. 1 is another rotatable cylinder in the form of a hollow cylinder 20 can be seen.

This rotatable cylinder 20 is used to adjust the concentricity. The hollow cylinder 20 has an internal thread 31 into which a differential screw 21 engages, which is provided in a bore 22 in the base body 1. Also the Hollow cylinder 20 has an axially parallel flat surface 19 'with rounded longitudinal edges which are against a flat side surface or an edge 29 of the insert 4 supports. By correspondingly rotating the hollow cylinder 20, an accurate Adjustment of the concentricity in a simple way by turning the differential screw 21, for example with the help of a hexagon wrench, can be achieved.

The two exemplary embodiments are also shown in the section in FIG. 2 for the arrangement of a locking pin 24 resp.

27 can be seen.

In Fig. 3 is a plan view of the embodiment of Fig. 1 shown. This figure shows the clamping of the insert 4 against the support 16 with the help of the fastening screw 5 and the slotted spring element 6 and the hollow cylinder 20 with the inner screw 21 can be seen particularly clearly. the axially parallel flat surfaces 19: or 19 'are, as explained above, more advantageous Way rounded at their outer edges, so that a steady transition to the cylinder jacket of the rotatable cylinder takes place. Simultaneously will be eventual Damage to the insert 4 when turning the rotatable cylinder 17 or 18 or 20 avoided.

The invention is not limited to the illustrated and described exemplary embodiments limited. It can also be used when the insert 4 has a different one Fastening device is clamped against the support 16, for example with the help a clamping wedge or the like.

The invention can also be applied to tool holders, albeit the use in cutter heads is particularly advantageous.

In the exemplary embodiments, square indexable inserts are used intended. However, it is also possible to have a different shape, for example triangular or hexagonal, insertable inserts.

The invention thus also includes all advantageous developments and professional modifications as well as partial and sub-combinations of the described and / or features and measures shown.

Claims (12)

Claims micro-adjusting device for indexable inserts in base bodies of cutter heads, tool holders or the like, with a clamping device for pressing the insert against a system characterized by at least one, to one Cutting edge (28) of the insert (4) arranged essentially parallel, rotatable Cylinder (17 or 18, 20) with an axially parallel flat surface (19) with rounded Longitudinal edges for the adjustable displacement of the insert (4) parallel to the latter Plant (16) and along the clamping device (5, 6). 2. Apparatus according to claim 1, characterized by ores further rotatable cylinder (20), the longitudinal axis of which is essentially perpendicular to the longitudinal axis of the first rotatable cylinder (17, 18) runs to move the insert (4) parallel to their system (16) in an approximately perpendicular to the first displacement direction Direction. 3. Apparatus according to claim 1 or 2, characterized in that the rotatable cylinder (17) is designed as a slotted heavy-duty clamping sleeve. 4. Apparatus according to claim 3, characterized in that the axially parallel flat surface (19) approximately evenly on both sides of the slot (30) of the heavy-duty clamping sleeve (17) runs. 5. Apparatus according to claim 1 or 2, characterized in that A solid pin (18) serves as a rotatable cylinder. 6. Apparatus according to claim loder 2, characterized by an eccentric acting hollow cylinder sleeve (20) as a second rotatable cylinder. 7. Apparatus according to claim 6, characterized in that the hollow cylinder sleeve (20) has an internal thread (31) and for fastening one in a bore (22) the base body (1) arranged differential screw (21) is used. 8. Apparatus according to claim 1 or the following, characterized by a locking pin (24 or 27) for the rotatable cylinder (17 or 18) against axial displacement. 9. Apparatus according to claim 8, characterized in that the locking pin (24) in an oblique to the axis of the rotatable cylinder (17 or 18) Bore (23) can be screwed. 10. Apparatus according to claim 8 or 9, characterized in that the locking pin (24) at one axial end (25) of the rotatable cylinder (17 or 18) is present. 11. Apparatus according to claim 8 or 9, characterized in that the rotatable cylinder (17 or 18) approximately in axial center one Has groove (26) into which the locking pin (27) engages. 12. The device according to claim 1 or the following, characterized in that that as a clamping device a fastening screw (5) with a conical section (14) and a slotted one that can be expanded by the fastening screw (5) and these surrounding / spring element (6) is used.