DE155156C - - Google Patents

Description

IMPERIAL

PATENT OFFICE,

In order for a bearing pin to lie against all points in its bearing, for example, must the profile of the journal match that of the bearing shell. As far as it is concerned If cylindrical pegs are involved, there is no further difficulty, but if required is that the roundings adapt to the bearing shell. ' As. suitable In this case, the shape turns out to be the circular shape, since it is the one which is the first allows to create cylindrical solid and hollow profiles.

^e Such rounded portions, as well as flutes are usually generated using Circular cutting tools by hand. In this case, however, the exact circular shape cannot be maintained. Even if the turning steel is given a circular cutting edge, it is difficult to achieve an exact result, since the steel with a circular cutting edge gives an inaccurate result in manual work and must have a larger or smaller profile when using copying machines, which is only through Replacing the steel is to be achieved.

Inevitable guides for the turning tool can probably be achieved in that the tool holder with the tool, the cutting edge of which describes a circle, rotates around a fixed point. Meanwhile are these arrangements are practically hardly feasible as soon as they are circles with low Diameter acts, because then the pivot point is too close to the workpiece and there is therefore a lack of space for the tool holder.

Mechanisms for circular guidance of the turning tool are also used in planing machines used. So it is known by means of two parallel slideways and a crank to let all points of the steel describe one and the same circle. Alone in the case of unfavorable leverage ratios, such a mechanism is for Clamps inclined, and further give the. straight cut surfaces give rise to inaccuracy and cause considerable frictional resistance.

The present support, on the other hand, solves the task perfectly with simple means Way. The working principle is that the support is guided by two equal cranks, so that each of its points, consequently also the tool describes one and the same circle.

The drawing shows the machining of an axis with two fillets as an example, which should be turned out at the same time has been selected. Figures 1, 2, 3 and 4 show the support in different views and partial cross-section. Fig. 5 is an illustration of the operation.

The support a, which carries the turning tool, is moved on its flat sliding surface by the two cranks b _{ b ₂ in a circular path, in such a way that each point of the support, including the tool, describes a circle, the radius of which is equal to Length of the cranks. The cranks are driven by worm wheels C ₁ C ₂ and the associated screw d. If this is rotated, they also rotate

Worm wheels and the cranks, so that said movement takes place. A second spindle is used to adjust the knife during the process, which ends in the square e .
In order to produce the most precise circular arcs possible, the turning tool is also given a circular profile; then the radius of the fillet is equal to the sum of the radii of the cranks and the turning tool.

ίο Fig. 5 shows this clearly and shows the process at the moment when the turning tool is about to complete a Cut a semicircle out of the material. Each point of the comes one after the other Turning tool for engagement. The generated circular curve is not the same as the one which limits the turning tool, but, as I said, equal to the sum of the radii of the Crank and the turning tool. The fact that the circular profile of the turning tool the touches the circle to be generated at every point, the result is extremely precise, as cannot be achieved in any other way.

The turning tool is adjusted in a known manner by means of a spindle and slide on the support. The operation is then that the tool circles of the same diameter, which are parallel to each other and whose midpoints lie on a straight line.

In the figure, the cranks, for which eccentrics can also be set, are not shown adjustable. Without further ado, however, it can be seen that the size of the circular arc can also be made adjustable by the usual means (slot and adjustable pin). The size of the fillet can also be changed by the size of the profile circle of the tool, since, as I said, its diameter is equal to the sum of the diameters of both. The only condition is that the two cranks b ₁ b _{2 describe the} same circles.

Claims (2)

Patent Claims: 1. A support for turning circular grooves, characterized in that the support by two evenly driven cranks (b _y b ₂ ) is given a continuous circular movement, while the. Adjustment of the turning tool takes place in a known manner by screw and nut on the support. 2. Support according to claim 1, characterized in that the turning tool is a circular profile is given, so that an exactly circular fillet, the radius of which is equal to the sum of the Radii of the cranks and the turning steel profile is generated by the movement of the support all Points of the steel come into engagement with the workpiece one after the other. 1 sheet of drawings.