ELLIPTIC TURNING. Wood and other sub stances are turned into an elliptic form by means of a chuck, which is applied on the common turning lathe. This chuck is on the principle of the tram mel, Plate LXXIX. fig. 1. The grooves in the chuck are much wider than in the trammel, and the points of the chuck that correspond to C, D, of the trammel, fig. 1, remain fixed, and in one horizontal line, where as in the trammel it is these points that are put in motion.
If two straight lines, crossing each other, be drawn on a piece of transparent paper or 'mica; and if this transparent paper be laid upon a sheet of white pa per, with two points marked on it; and if the trans parent paper be moved round, so that the cross lines shall travel over the two points, in like manner as the two points, C, D, in the trammel, fig. 1, travel over the cross grooves of the trammel; and if the point of a pencil be held fixed, and touching the transparent paper, so as to leave a trace on the trans parent paper, when the paper is moved; then after the transparentaper has made a revolution, the trace left on it by the point of the pencil is an ellipse. This me thod of describing an ellipse represents the action that takes place in the chuck for turning ellipses; the point of the pencil which remains unmoved is m the same si tuation as the turner's gouge; the transparent paper, which receives the trace of the ellipse from the fixed pencil is analogous to the wood, which is to be turn ed into the form of an ellipse by the fixed cutting gouge.
In fig. 2, the chuck is represented as fitted on a common turning lathe, of which A is the pulley of the maundrel, B and C are the aides of the frame supporting the pulley, P the rest, D the frame in which the rest slides, E F the feet of that frame, I the nut and screw which serve to fix the rest, G H are the continuation of the sides 13 C. K is the el liptic chuck, with two grooves, through which the knobs of the slider pass; these knobs are connected by a strong bar of iron 'screwed into their ends, and on this bar of iron is seen the screw for fastening the board, to which is fixed the wood or other substance which is to be turned elliptically.
In fig. 4. L is a part of the side C of the maun drel frame, with the ring M fastened to it. On this ring, the broad groove m the slider 0, fig. 8, moves when the lathe is set a going; and this groove is at right-angles to the grooves in N, fig. 8, in which the knobs of 0 move. In fig. 4, it is seen that the centre of the ring M may be made to coincide with the centre of the spindle of the maundrel, in which case a circle is described. If the ring is fixed, so that the centre of the ring does not coincide with the centre of the maundrel, an ellipse is described by the wood screwed upon the bar of 0, in fig. 2; and the most eccentric ellipse that the machine describes is ob tained, when the maundrel is at the circumference of the ring. The centre of the spindle of the maun drel, and the centre of the ring M, are always in one immoveable horizontal line, and are analogous to the points C, D, of the trammel, fig. 1. In fig. 3, it is seen that the sides of the grooves may be brought nearer together by means of screws, so that the sli ders and the cylindric ring may fit exactly to the grooves. The best elliptic chucks are made of brass. See Mechanical ,Exercises, by Peter Nicholson, Lon don, 1812.