Fig. 1886.
[Fig. 1886] is a sectional view in a vertical plane through the centre of the head, and showing the construction of the spindle and the means of elevating the block j; h is the spindle having journal bearing in j, and secured from end motion by the cone at a and the nut b; its bore is coned at the front end to receive the arbor c carrying the centre d, upon which is the piece e for driving the work dog, which is secured within e by the set-screw f. Fast upon spindle h is a worm-wheel f made in two halves, which are secured together by the screws g. At g is the worm-wheel (for driving f) fast upon the shaft h′.
It is obvious that the block j may be raised at its centre end upon h as a centre of motion, the worm f simply moving around upon g. At v is a bolt to lock j to j, and thus secure it in its adjusted position. w w are lugs or blocks fitting into the slot in the work table, and serving to secure the head, being in line with the foot block (shown at 1 in [Fig. 1880]). A sleeve z is used to cover the thread and protect it when a chuck is not used.
Fig. 1887.
[Fig. 1887] is an end view partly in section to show the construction of the worm shaft and the index plate. h is a sleeve upon which j pivots, and h′ the worm shaft, which may be revolved by hand by the lever l, or automatically by means of the bevel-gear k, which connects with the train of change gears; these change gears being thrown out of operation when gear k (and therefore h) is not required to revolve automatically nor continuously. l is an arm for carrying the index pin l for the index plate i. The pin l is adjustable for radius from the centre of h (so as to come opposite to the necessary circle of holes on the plate i), the arm l being slotted to permit of this adjustment, and being secured in its adjusted position by the nut on the end of h′. Pin l is pushed into the index holes by means of the spiral spring coiled around l at m, which permits l to be withdrawn from i under an end pressure, but pushes it into i when that pressure is released. To indicate the amount of rotation of i, without counting the number of holes, a sector n n′ is employed, it having two arms adjustable for their widths apart so as to embrace any given number of holes on the required circle. At r′ is a pin which is pulled forward and into holes provided in the plate i to prevent its turning when using the lever l. n and n′ are held to the face of i by the friction of the spring q. A face view of index plate i is shown in [Fig. 1888], the lever l, [Fig. 1887], being removed to expose n and n′.
The surface of the plate is provided with rings of holes marked respectively 20, 19, 18, &c., the holes in each ring or circle being equidistantly spaced.