DE321448C - Planing machine for generating the undercut curved surfaces of milling cutters with planing steel swinging eccentrically to the work piece - Google Patents

Description

Planing machines with a tool that vibrates eccentrically to the workpiece for the Production of the undercut curved surfaces on milling cutters are known. The wave for the vibrating tool and the cutter body are here in the radial direction, so across the shaft, arranged side by side. This is the distance between the ideal Axes of the vibrating ■ tool ίο and the cutter body to a certain one Minimum dimensions, which are consistently not sufficient to accommodate the milling surfaces required To achieve curve shape. According to the invention, the shaft for the vibrating The tool and the cutter body are stored next to one another in the axial direction, so that any small distance between the ideal axes of the vibrating tool and the cutter body are created can. This type of storage is brought about particularly advantageously in that the wave for the vibrating. Tool interrupted and the cutter body between two quills is mounted in this shaft. This embodiment is shown in the drawing illustrates in which

Fig. Ι the front view,

Fig.-2 the top view and

3 shows a section along line AB of the 3 ° FIG.

α is the milling cutter body prepared in a known manner by means of longitudinal grooves, which is to be provided with the undercut curved surfaces between these grooves. The plane steel b sits on a slide c that swings back and forth. For this purpose it is attached to the frame d, which swings around the ideal axis χ (see FIG. 3). The oscillation wave is not carried out, but interrupted in order to create space for accommodating the milling cutter body α , the axis of which is denoted by y (see F: g. 3). The shaft for the vibrating tool b and the milling cutter body α are therefore mounted next to one another in the axial direction. In the exemplary embodiment shown, the oscillating movement is caused by the disk f through a push rod.

The cutter body α can be rotated on grains k, k , which are attached in quills p, p. It is connected to a dividing disk g which, when the tool goes down, is pushed forward by a push pawl seated on the frame d until a support pawl i attached to the table engages, which absorbs the working pressure during the operation. The tool first processes the entire circumference of the workpiece in increments, whereupon the further advance takes place. The push pawl h is appropriately set up adjustable.

The distance between the figures of eight χ and y is also expediently variable, which could be achieved by a displaceable mounting of the frame d or the grains A. But you can also mount the quill p with the grains k immovably eccentrically and then for certain dimensions

Arrange the center point centriixh, but eccentrically for other dimensions, so that the distance x, y changes. The position of the section S curve then changes accordingly.

Such an arrangement of a quill and its punch is shown in FIG. 4 reproduced, while Fig. 5 recognize the exact relationships on a larger scale leaves.

The tip of the grain is therefore to be designed centrally or more or less eccentrically, depending on the distance to be achieved between the two axes, ie the grain tip is to be placed centrally or more or less eccentrically to the base of the grain cone. I is the one bearing for the frame of the vibrating tool, φ the quill, which is arranged in this bearing I.

k is the exchangeable center punch cone and s the center punch tip. The center of the bearing I determines the position of the oscillation axis y for the tool, and the center of the center point s determines the position for the axis χ

As of the milling cutter body In Fig. 5 it is assumed that the center point s is arranged eccentrically on the center cone k . By inserting a grain k with a greater or lesser eccentricity of the tip s or with a central tip, as is assumed in FIG. 4, the distance between the axes sen % and y can be changed.

Claims (3)

Patent claims: ι. Planing machine for the E-generation of the Ixinterschnitten curved surfaces of milling machines with planing steel swinging eccentrically to the workpiece, characterized in that the shaft (y) for the swinging planing steel (b) and the cutter body (a) are mounted next to each other in the axial direction. 2. Planing machine according to claim 1, characterized in that the shaft (y) for the vibrating planing steel (δ) is interrupted and the milling body (a) is mounted between two quills (φ, φ) in this shaft. 3. Planing machine according to claim 2, characterized in that to change the position of the axis of rotation (x) of the cutter body grains (k) with a central or differently eccentric tip (s) are used in the quill (φ) . 1 sheet of drawings.