DE918910C - Device for processing workpieces with a cross-section deviating from the circular shape - Google Patents

Description

Device for processing workpieces with a shape deviating from the circular shape Cross section The invention relates to a device that is used for machining of workpieces which have a cross-section deviating from the circular shape.

Such form turning devices for machining for Lathes are known and designed in many ways. It is also no longer new to using a profile ruler, the one on a sliding table Controls the tool holder that can be displaced perpendicular to the workpiece axis. Means such a profile ruler succeeds in the surface of the workpiece in their Longitudinal direction to a very specific shape corresponding to the profile of the ruler give.

The invention probably also makes use of such a measure, however, it is not satisfied with simply placing the workpiece in the longitudinal direction of the surface to edit according to a prescribed profile, but connects at the same time with it the generation of a movement perpendicular to the longitudinal axis of the workpiece, also the cross-sectional shape deviating from the circular shape different over the whole To shape workpiece length.

In and of itself, it is no longer new with a form lathe for turning out of round Workpieces, in particular rolling blocks, a guide rail to be firmly arranged and the tool according to the curve of the ruler, with the tool also still independent of the fixed profile ruler in the radial direction vibrations executes. Such a device is, however, very complex in its structure. Due to the numerous links that are responsible for the transmission of radial vibrations on the tool must be provided, an accurate, error-free machining can not guaranteed. In addition, such a device also has the disadvantage that a change in the amplitude of the radial movement over the longitudinal extent of the workpiece cannot be brought about.

It has also become known in the art, one on a lathe To provide a device for the elliptical rotation of workpieces, the tool only executes a rotating movement, while the firmly clamped stationary one Workpiece is only advanced in the axial direction. To make an elliptical movement To generate, the axis of the workpiece must be opposite to the axis of rotation of the rotating Form a certain angle with the tool. This is made possible by the fact that two Guide curves are used, both of which can be moved in the axial direction or can be scanned. However, such devices are not in practice became known, because presumably the structure of the machine due to the high requirements, that of the accuracy and the interaction of the individual links for the adjustment device must be made to carry out the axial movement of the workpiece, large Causes difficulties. In addition, the known device can only be used when it comes to machining workpieces of smaller dimensions. She must however, in the production of larger workpieces, such as. B. the production of large pistons of more than 1 m in length due to the required accuracy.

Much easier than the previously known devices and above all, it works much more precisely and is also easier to use is the device according to the invention, in which the profile ruler that the tool controls according to the longitudinal profile in the axial direction, by one of the rotating spindle derived drive is set in vibrations, which the tool the additional Issue transverse movement (radial movement).

The figure illustrates an embodiment. On a lathe bed i is, in a known manner, a headstock 2 with a spindle flange 3 and a tailstock .4 with its tip 5 put on. Between the spindle flange 3 and the tailstock tip 5 is the workpiece 6, for example a large piston for internal combustion or diesel engines, clamped. The swing axis 8 of a swing lever is located on the longitudinal support 7 9, which carries the tool io with its adjusting screw i i at its upper end. At its lower end, a sliding block 12 is attached to the rocker arm 9, which at the working movement of the longitudinal support 7 slides along a profile ruler 13. The rocker arm 9 has a very low mass moment of inertia. He is accordingly easily built and consists, for example, of thin sheet metal. The sliding block 12 is always pressed positively against the curve of the ruler 13 by means of a spring 14. The curve of the profile ruler 13 is in the transmission ratio of the rocker arm according to the course of the external shape of the workpiece to be machined (piston) shaped. With the help of the profile ruler 13, cylindrical, conical, convex, concave or generally curved circumferential shapes are generated. The curve the profile ruler 13 is designed so that they the deviations from the exact Has cylindrical shape on an enlarged scale, during the transfer of the deviations serving rocker arm 9 is divided in the reciprocal ratio of this scale.

Around the workpiece a cross-section deviating from the circular shape to give, the profile ruler 13 is dependent on the workpiece spindle 3 vibrations offset. To carry out these vibrations, the device is further as follows educated. The part carrying the profile ruler 13 is in several leaf springs or Leaf spring assemblies 15 suspended. To move the ruler support in the longitudinal direction To avoid this, it is held in place in a holding piece 17 by means of a bolt 16.

To generate the oscillating movement, a shaft 21 is driven as a function of the tool spindle 3 by means of the chain wheels 18 and 20 via a chain i9. The sprockets i8 and 2o have the number of teeth in the ratio 2: i, so that the shaft 21 rotates twice as fast as the tool spindle 3. On the shaft 2i there are also two bevel gear pairs 22 and 23 or 24 and 25, two with the same number of teeth Shafts 26 and 27 extending vertically to the tool spindle are set in motion. They thus have the same speed as the shaft 2l and twice as fast as the tool spindle 3. At their lower ends, the shafts 26 and 27 carry eccentrics 28 and 29, the adjustable pins 30 and 31 of which engage in slots 32 and 33 of the ruler carrier without play. When the spindle 3 rotates with the workpiece 6, the profile ruler 13 thus performs two double oscillations per workpiece revolution. The total oscillation is a pure sine oscillation.

For workpieces that are only machined according to the curve of the profile ruler 13 the oval turning device is switched off. To this end is located between the sprocket 20 and the shaft 21 one of the primary side and secondary side existing dog clutches, which are disengaged and engaged by means of a lever 36 can. It must be designed in such a way that it can only be engaged in a certain position is. When the oscillating movement is switched off, the ruler support is not supported by one shown index bolt held in a certain position.

If the device according to the invention is put into action, it is moved the tool along the surface of the workpiece, according to the instruction, which is prescribed by the curve of the profile ruler 13, and also leads the transverse movement determined by the eccentrics 28 and 29 perpendicular to the tool spindle axis. Both movements result in a resulting, which is decisive for the curved oval shape of a piston, for example is.

The device according to the invention allows workpieces of any length to be oval and at the same time to be machined in shape, since there is no longer any dependency on the limited width of the grinding wheel required to produce a sample. By saving a rotating, three-dimensional sample, according to which the workpiece is to be produced by scanning or copying, the costs for producing such a machine tool can be reduced significantly. Furthermore, since the rocker arm 9, which is arranged in an opening in the longitudinal support 7, can be designed with a large reduction or transmission ratio, it is possible to suppress inaccuracies of the profile ruler almost completely. They can only have an effect as small fractions when machining the workpiece.

The arrangement of two adjustable eccentrics 28 and 29 also allows Manufacture workpieces with running ovality by z. B. the eccentric 28 by means of the pin 3o is set to a different eccentricity than that of the eccentric 29 is present. One of the two eccentrics can even have the eccentricity o or even have a negative eccentricity.

Another advantage of the device according to the invention is that it can be retrofitted on the back of any lathe. In the end it is also possible to generate vibrations other than pure sine waves, namely when the two eccentrics are replaced by cam disks. Then you can any cross-sectional shapes can be given to the workpiece.

The use of cam disks instead of eccentrics does not necessarily make a transmission ratio of 2: i is required between the workpiece spindle and the oscillating shaft, but allows another relationship, such as B. i: i or i: 3, i: 4 etc., to choose.

Claims (7)

PATENT CLAIMS: i. Device for machining a workpiece with a cross-section deviating from the circular shape, in which the longitudinal profile of a Profile ruler, the out-of-roundness derived from one of the turning spindle, additional Radial vibrations generating drive is derived, characterized in that the profile ruler (i3) that controls the turning tool (To) according to the longitudinal profile can be caused to vibrate by the drive derived from the rotary spindle (2i) that give the turning tool (To) the additional radial movement. 2. Device according to claim i, characterized in that to drive the profile ruler (i3) Drive shafts (26 and 27) are used, which are arranged perpendicular to the plane of the profile ruler are and eccentrics (28 and 29) move, their movement via pins (3o and 31) in slots (32 and 33) transferred to the profile ruler. 3. Device according to the Claims i and 2, characterized in that the speed of the eccentrics (28 and 29) is twice as large as the number of revolutions of the workpiece spindle (3). 4. Device according to claims i to 3, characterized in that along the curve of the profile ruler (i3) a sliding block (i2) which is attached to the lower end of a rocker arm (9) is, the movement decreases. 5. Device according to claims i to 4, characterized in that that the tool (To) is arranged at the upper end of the rocker arm (9). 6. Device according to claims i to 5, characterized in that the curve of the profile ruler (i3) the deviations from the exact cylinder shape has enlarged and the rocker arm (9) divided in the reciprocal proportion of the magnified scale of the deviations is. 7. Device according to claims i and 2, characterized in that when using cam disks instead of the eccentric, the transmission ratio between workpiece spindle (3) and oscillating shaft (2i) deviates from the value 2: i. Cited publications: German Patent Specifications No. 31 102, 697 844; Swiss patent specifications No. Toi 661, 2i4 67 0 , 222 3i0; U.S. Patent No. 2,375,368.