DE3692C - Device for turning billiard balls - Google Patents

Description

1878.

Class 39.

ERNST EBELL in BERLIN. Device for turning billiard balls.

Patented in the German Empire on May 12, 1878.

The spherical shape of billiard balls is usually turned from a piece of ivory, which has approximately the shape of a cylinder, the height of which is equal to its diameter is. In order not to waste the waste completely in view of the high price of the material work up, is already turning by hand from both base surfaces to the Cylinder jacket cut off a ring before the ball turning begins. So now this Rings in the material as strong as possible, and at the same time the ball with only one feeding of the To get the work piece of mathematically exact form, the present ball support is supposed to serve his cutting tools belonging to him.

The cutting out of the ball takes place in the three stages, which are shown in FIGS. 1 to 3 one after the other. The three stages correspond to three different rotary engravers abc, which in the figures, resting on the work piece, dotted in their initial position during work, are completely drawn in their final position. The shape of the styluses b and c are parts of the mantle of a high sphere, the inner diameter of which corresponds to the ball to be rotated. The burin α, which is usually pointed in the form of a rotary stylus, cuts a cavity from the base of the work piece, which is delimited by a calotte and a piece of conical surface and has a diameter of little more than a sixth part of the circumference of the sphere to be rotated. In this cavity, in the second stage, the rotary stylus b is inserted, which covers a sixth of the path on the circular line describing the sphere, creating a zone on the workpiece, thus completing the first hemisphere by cutting off the ring section hatched in FIG. 2 . In the third stage, the stylus c is now applied to the finished hemisphere and, after a quarter-circle movement with a full hemispherical section, separates the remainder of the ivory hatched in FIG. 3 from the now finished ball.

The turning tools, which are a little over 1 mm thick, are very precisely worked, cut with the high edge of one end and are attached to holder pieces at the other end, with which they are clamped in their burin housings. Four burin housings sit together on a washer d, which is held by a nut on the support slide χ rotatable about the pin e. This disk and with it the stylus can be set in a definable position if the clamp / by means of the screw g gripping on the circumference of the disk d is pressed together. With the disk, the burins precisely adjusted on it can easily be exchanged for others for other spherical diameters on the same disk. On the cheek of the lathe a support base h is screwed in the usual way, the slide of which can be moved exactly parallel to the direction of the axis of rotation of the lathe by means of the hand crank i . A pin k sits vertically under the rotary axis on the slide, around which an arm / with a screw can turn without end, as is the case with otherwise common ball supports. The screw m of this gear is mounted in the bracket n at both ends and can be released from its worm wheel p by unscrewing the cap screw 0 , the spiral spring q on the latter pushing back the bracket η , which is guided in slots on the sides of the support slide . After tightening the screw ο , the screw m also engages in its worm wheel again.

A second support y and χ is attached to the arm /, which can be moved in the radial direction to the pivot k by means of the hand crank r . The plate t encompasses the neck of the support screw spindle and is secured against displacement in the axial direction by a stop of the same and by the hub of the crank r. Usually the plate is attached to the prism piece y by two screws u; but the holes in which the screws u stick are slit one upwards and the other downwards in such a way that when the plate t (see view) is turned over on the handle w it comes completely out of connection with the support part y and the support slide -x can therefore be withdrawn as far as desired with the hand. · In this withdrawn position, any rotation can be carried out on the disk d without being hindered by the burin against the workpiece. The slide χ is pushed back by striking the plate t against the

Prism y limited, whereby the original position of the slide occurs again.

The handling of the support when spinning the ball is now as follows: With a very common rotary stylus located in the fourth burin housing, a puncture is made in the middle on the circumference of the workpiece, which is well-directed in the chuck ζ , until its base is rotated in all round. Use the button to determine the largest ball diameter to be achieved from the ivory piece, select the appropriate stylus disk and, after releasing the plate t and pulling the slide χ forward, place it on the pin e as disk d . The screw m has been removed from its worm wheel /, and after pushing back and latching the plate t, the graver α can be set precisely in the axis of rotation of the workpiece and secured with the clamp / by screw, f. The turning tool is now allowed to work by turning the arm slightly with the hand until the hollow in the ivory shown in FIG. 1 is turned out. Now pull the slide χ off again, align the turning tool b against the cavity and place it exactly against the calotte when it is pushed forward, whereupon the plate t is latched again, which, as soon as the burins are correctly adjusted in their housings, always exactly in its place, which is in abutment with the prism piece y, will be. If you now move the screw m into its worm wheel / and turn the crank v, while of course the lathe revolves until the point of the burin reaches the circumference of the ivory in the groove, the first ring, Fig. 2, falls off. During the temporary disengagement of the screw m , the operation just described is repeated, only that the turning tool c is attached to the one that has arisen. Hemisphere is created, and the ball, Fig. 3, falls completely when the stylus tip arrives within the chuck in the axis of rotation.

Claims (1)

Patent claim: The entire arrangement of the construction of a ball support for billiard balls as described and drawn. For this purpose I sheet drawings.