Fig. 1880.

In [Fig. 1880] is represented a small size universal milling machine, in which a is the frame that affords journal bearing to the live spindle, in the coned mouth a of which the mandrel carrying the rotary cutter is fitted, means being afforded for taking up the wear of the live spindle journal and bearings. b is the cone pulley for driving a. Upon the front face of a is a vertical slide upon which may be traversed the knee or table c, which by being raised, regulates the depth to which the cutters enter the work. To operate c the vertical screw b is provided, it being operated (by bevel-gears) from a horizontal shaft whose handle end is shown at c.

The nut for elevating screw b is formed by a projecting lug from or on the main frame a. To enable c to be raised to a definite height so that the cutters shall enter successive pieces of work to an equal depth, a stop motion is provided in the rod d, which passes through a plain hole in the lug on a that forms a nut for b. Rod d is threaded and is provided with a nut and chuck nut whose location on the length of the rod determines the height to which c can be raised, which ceases when the faces of the nuts meet the face of the projecting lug.

The upper surface of c is provided with a slide on which is a slider d, which, by means of a feed screw whose handle end is shown at e, may be traversed in a line parallel to the axial line of the live spindle or arbor, as it is more often termed, this motion being employed to set the width of the work in the necessary position with relation to the rotary cutters. To d is attached e, which is pivoted at its centre so as to be capable of swinging horizontally, means being provided to fasten it to d in its adjusted position. This is necessary to enable the line of traverse of the work to be at other than a right angle to the axial line of the cutter spindle when such is desired, as in the case of cutting spirals; e serves as a guide to the carriage f, the latter being operated endwise by means of a screw whose handle is shown at e′′, the nut being attached to e, handle e′′ being to traverse e by hand. To feed f automatically gear-wheel f is attached to the other end of the same screw, this automatic feed being actuated as follows:—

At the rear end of the live spindle is a three-stepped cone pulley attached by belt to cone pulley g, which connects by rod to and drives gear f. The construction of the rod is so designed as to transmit the rotary motion from g to f without requiring any adjustment of parts when c is raised or lowered or f traversed back or forth, which is accomplished as follows:—

At g g are two universal joints attached respectively to g and f, and to two shafts which are telescoped one within the other. The inner rod is splined to receive a feather in the outer. The rotary motion is communicated from g to the universal joint, through that joint to the outer or enveloping shaft which drives the inner shaft, the latter driving a universal joint which drives f, the inner shaft passing freely within the outer or sliding out from it (while the rotary motion is continuing) to suit the varying distance from and position of f with relation to g. This automatic feed motion may be adjusted to cease at any point in the traverse of e by a stop and lever provided for the purpose, so that if an attendant operates more than one machine, or if the feed require to be carried a definite distance, it will stop automatically when that point has been reached.

The carriage f may carry various chucks or attachments to suit the nature of the work. As shown in the cut it carries a tailblock i and head j, both fitting into a way provided in f so that they will be in line one with the other at whatever part in the length of f they may be set or fixed. Both i and j carry centres between which the work may be held, as in the case of lathe work. Part j is pivoted to j so that it may be set at an angle if required, thus setting the centre, which fits in the hole at h, above the level of that in i, as may be necessary in milling taper work, the raising of j answering to the setting over of the tailstock of a lathe for taper turning.

To enable the accurate milling of a polygon, the spindle h may be rotated through any given portion of a circle by means of the index wheel at i, it being obvious that if a piece of work be traversed beneath the cutter, and h be rotated a certain portion of a circle after each traverse, the work will be cut to a polygon having a number of sides answering to the portion of a circle through which h is rotated after each traverse. Means are also provided to rotate h while f is traversing beneath the cutter; hence when these two feed motions act simultaneously the path of the work beneath the cutter is a spiral, and the action of the cutter in the work is therefore spiral; hence spiral grooves may be cut or spiral projections left on the work, as may be determined by the shape of the cutters. k is a chuck that may be connected to h to drive the work, and h a work-holding vice, that may be used instead upon f in place of heads i j.