EXPLANATION OF THE PLATES.
403
is intended to represent the base, the section being taken as looking into the cylinder
from the front.
Fig. 3 shows a detached plan or horizontal view of the hollow axle and piston,
with the partition and two steam ways in dots.
Fig. 4 represents a horizontal section of the above, taken through the centre of
the hollow axle, showing the exit steam way v complete, and the partition t in
section.
Fig. 5 is a face view of the side of the piston, fitting against the internal peri
phery of the cylinder; and fig. 6 exhibits a plan view of one of the slides s, with
the tail piece h and roller g shown connected to it. This figure represents, in
section, the method of attaching the slide s to the tail piece h, which is done in the
following manner: on to the sunken part, 1, of the slide is cast a pin, 2, and over
this pin is placed a wrought iron piece or collar, fitting rather loosely, into which
the rod k is screwed, as shown in the plate.
PLATE LXXIII.
CONTRIVANCE FOR PREVENTING A LOCOMOTIVE ENGINE FROM RUNNING
OFF A RAILWAY. BY RICHARD AYRE, ESQ., NEWCASTLE-UPON-TYNE.
This plate represents one of the ingenious contrivances of Mr. Ayre.
The figures 1, 2, 3, are different views of the locomotive engine, with the
necessary apparatus. In fig. 1, AAA, represents a steel bar descending below
the rail in the inside, about an inch below the flange of the wheel. This bar is
connected to the frame of the engine by a joint, B, about which it is moveable; and
a roller, E, is attached at the bottom, and a cross bar or brake, G, at the top. It
is also connected with the steam valve by means of the chain H H ; C is a joint
to enable the bar to move backward or forward; D is a spring connected to the
frame of the engine and, by the chain ED, to the bar AAA, which spring would
be pulled down were any thing to come in contact with the bottom of the bar
AAA, in the line of railway, and enable the end of the bar to move back and
relieve itself. Also FF are two springs to keep the cross bar from the side of the
engine, as shown in the cross sections fig. 2 and fig. 3.
Should there be any tendency to run off the railway, the bottom of the bar
AAA, would by the pressure against the rail be driven inwards, and by its action
round the joint B, the brake G would be caused to press against the wheels, and
thus by the corresponding friction stop the motion; and at the same time this