[Fig. 650] represents a general view of the lathe, while [Fig. 651] represents a sectional view of the headstock. The live spindle consists of two parts, an outer sleeve a a, having journal bearing in the head, and an inner hollow spindle b b, threaded at its front end e, to receive the chucks. The main spindle at the front end works in a journal box c, that is cylindrical to fit the headstock, but double coned within to afford journal bearing to the spindle a. The inner step of this double cone is relied upon mainly to adjust the diametral fit of the bearing, while the outer step is relied upon mainly to adjust the end fit of the spindle; but it is obvious in both cases there is an action securing simultaneously the diametral and the end fit. In the back bearing there are two cones. The outer one r is cylindrical outside where it fits into the head, and coned in its bore to receive the second cone s, which rotates with spindle a. The nut f is threaded upon a, so that by operating f, a is drawn within c, and s is simultaneously moved within r, so that both bearings are simultaneously adjusted. d d are dust rings, being ring-caps which cover the ends of the bearings and the oil holes so as to prevent the ingress of dust.
The inner spindle b has a bearing in a at the back end to steady it, and a bearing at end e, and is provided with the hand wheel h, by which it may be rotated to attach the chucks which screw into its mouth at e. To rotate or drive the chucks there is in a a feather at g, the chucks having a groove to receive this feather and screwing into b at e, when b is rotated.
The mouth of a is coned, as shown at h, and the chucks are provided with a corresponding male cone, as shown at h in [Figs. 652] and [653], so that the chucks are supported and guided by the cone, and are therefore as close to the work as possible while having a bearing at g. But the cone on the chucks being split, (as is shown in [Fig. 652]), rotating b while holding a stationary (which may be done by means of the band pulley p), causes the chucks to move endwise in a, and if the motion is in the direction to draw the chuck within a, the cone h causes the chuck to close upon and grip the work. Thus in [Fig. 652] is shown a step chuck. The thread at j enters the end e of b, in [Fig. 651], which screws upon it. Cone h fits mouth h in [Fig. 651], and l represents the splits in the chuck, which enable it to close when the cone h is drawn within the mouth h of spindle a.
The chuck is employed to hold cylindrical plates or discs, such as wheels and barrels, and the various steps are to suit the varying diameters of these parts in different sizes of watches.
[Fig. 653] represents a wire chuck, having the cone at h, and the three splits at l, as before, the cone-mouth h closing the chuck as the latter is drawn within the spindle a.
In both the chucks thus far described, the construction has been arranged to close the splits and thus grip the circumferences of cylindrical bodies, but in [Fig. 654] is shown the arrangement for enabling the chuck to expand and grip the bores of hollow work, such as rings, &c.
The outer spindle a corresponds to the outer spindle a in [Fig. 651], and the inner one to spindle b in that figure. The chuck is here made in two separate parts, a sleeve v fitting in and driven by a, and a plug x fitting into a cone in the mouth of v, and screwing into the end of drawing spindle b. But while v is driven by and prevented from rotating within a by means of the feather at g, so likewise x is prevented from rotating within v by means of a feather h fast in x and fitting into a groove or featherway in v. It follows then that when b is rotated x may be traversed endways in v, to open or close the steps y according to the direction of rotation of b.
It will now be apparent that in the case of chucks requiring to grip external diameters, the gripping jaws of the chucks will, when out of the lathe, be at their largest diameter, the splits l being open to their fullest, and that when by the action of the cones, they are closed to grip the work, such closure must be effected against a slight spring or resistance of the jaws, and this it is that enables and causes the chuck to open out of itself, when the enveloping cone permits it to do so.
But in the case of the opening or expanding chuck, the reverse is the case, and the chuck is at its smallest diameter (the splits l being at their closest) when the chuck is removed from the lathe, as is obviously necessary. In reality the action is the same in both cases, for the chuck moves to grip the work under a slight resistance, and this it is that enables it to readily release the work when moved in the necessary endwise direction.
The band pulley p is fast upon a, and is provided with an index of 60 holes on its face g, and which are adjusted for any especial work by a pin q, so that a piece of work may have marked on it either 60, 30, 20, 15, 12, 10, 6, 5, 4, 3, or 2 equidistant lines of division, each of those numbers being divisors of 60. In marking such lines of division upon the work a sharp point may be used, supported by the face of the hand rest as a guide; or a sharp-pointed tool may be placed in the slide rest to cut a deeper line upon the work. The index plates used for cutting wheels and pinions may be placed on the rear end of a, the pawl being secured to the work-bench. The wheel h is for rotating spindle b to screw the chucks on or off the same.