steadies. In some the work is steadied in a vee, or a right angle,
in others adjustable pins or arms are brought into contact with it.
As the pressure of the cut would cause an upward as well as backward
yielding of the work, these two movements are invariably
provided against, no matter in what ways the details of the steadies
are worked out. Before a steady can be used, a light cut has to
be taken in the locality where the steady has to take its bearing,
to render the work true in that place. The travelling steady
follows immediately behind the tool, coming in contact therefore
with finished work continually.
Mandrels.-Some kinds of work are carried between centres
indirectly, upon mandrels or arbors (fig. 36). This is the method
FxG. 36.-Mandi-els.
A, Plain mandrel. B, Stepped mandrel. C, Expanding mandrel.
adopted when wheels, pulleys, bushes and similar articles are bored
first and turned afterwards, being chucked by the bore hole, which
fits on a mandrel. The latter is then driven between point centres
and the bore fits the mandrel sufficiently tightly to resist the stress
of turning. The large number of bores possible involves stocking
a considerable number of mandrels of different diameters. As it
is not usual to turn a mandrel as often as a piece of work requires
chucking, economy is studied by the use of stepped mandrels, which
comprise several diameters, say from three to a dozen. A better
device is the expanding mandrel, of which there are several forms.
The essential principle in all is the capacity for slight adjustments
in diameter, amounting to from i in. to é in., by the utilization
of a long taper. A split, springy cylinder may be moved endwise
over a tapered body, or separate single keys or blades may be
similarly moved.
Face-Work.-That kind of work in which support is given at the
headstock end only, the centre of the movable poppet not being
required, is known as face-work. It includes pieces the length of
which ranges from something less than the diameter to about
three or four times the diameter, the essential condition being that
the unsupported end shall be sufficiently steady to resist the stress
of cutting. Work which has to be bored, even though long, cannot
be steadied on the back centre, and if long is often su ported on
a cone plate. The typical appliance used for face-work is the common
face-plate (fig. 37). It is a plain disk,
screwed on the mandrel
 | An image should appear at this position in the text. To use the entire page scan as a placeholder, edit this page and replace "{{missing image}}" with "{{raw image|EB1911 - Volume 27.djvu/40}}". Otherwise, if you are able to provide the image then please do so. For guidance, see Wikisource:Image guidelines and Help:Adding images. |  |
FIG. 37.-Face-plate. A, Screwed hole to fit mandrel nose. B, Slots for common bolts. C, Tee-slots for tee-head bolts. nose, and having slot holes in which bolts are inserted for the purpose of cramping pieces of work to its face. There are numerous forms of these clamps, and common bolts also are used. The faceplate may also serve to receive an intermediary, the angle-plate, against which work may be bolted when its shape is such as to render bolting directly to the plate inconvenient. aw Char/es.-When a face-plate has fitted to it permanent dogs or jaws it is termed a dog or jaw chuck (fig. 38). In the commonest form the jaws are moved radially and independently, each by its own screw, to grip work either externally or internally. In some cases the dogs are loosely fitted to the holes in a plain faceplate. In all these types the radial setting is tentative, that is, I the jaws being independent, there is no self-centring capacity, and thus much time is lost. A large group, therefore, are rendered self-centring by the turning of a ring w ich actuates a face scroll
| An image should appear at this position in the text. To use the entire page scan as a placeholder, edit this page and replace "{{missing image}}" with "{{raw image|EB1911 - Volume 27.djvu/40}}". Otherwise, if you are able to provide the image then please do so. For guidance, see Wikisource:Image guidelines and Help:Adding images. | |
FIG. 38.-Independent Jaw Chuck. A, Body. ' b, Square heads of screws for a, Recess to receive face-plate. key. B, laws or dogs. c, Tee-grooves for bolts. C, Screws for operating jaws.
FIG. 39.-Scroll Chuck, ungeared.
A, Face-plate screwed to man- E, laws in chuck face, having
drel nose. sectional scroll teeth en-B,
Back of chuck screwed to gaging with scroll a, and
A moved inwards or outwards
C, Knurled chuck body with by the scroll when C is
scroll a on face. turned.
D, Chuck face. b, Tommy or lever hole in C.
F, Piece of work outlined.
| An image should appear at this position in the text. To use the entire page scan as a placeholder, edit this page and replace "{{missing image}}" with "{{raw image|EB1911 - Volume 27.djvu/40}}". Otherwise, if you are able to provide the image then please do so. For guidance, see Wikisource:Image guidelines and Help:Adding images. | |
F IG. 40.-Combination Geared Scroll Chuck. Back plate; a, recess for faceplate. B, Pinions. C, Circular rack with scroll b on
| An image should appear at this position in the text. To use the entire page scan as a placeholder, edit this page and replace "{{missing image}}" with "{{raw image|EB1911 - Volume 27.djvu/40}}". Otherwise, if you are able to provide the image then please do so. For guidance, see Wikisource:Image guidelines and Help:Adding images. | |
FIG. 41.-Spiral Geared Chuck, concentric movement. (C.Taylor, face. Birmingham.) D, Chuck body. A, Back. E, Jaws fitting on intermediate B, Body. pieces c that engage with the scroll b. Screws for operating jaws independently. d. C, Spiral plate with teeth engaging in jaws D. E, Bevel pinions gearing with V teeth on back of C.
