motion may be produced by the spring, i, and its extent is such that
the drum, g, is brought in contact with the friction-disk, e.

The hand-lever, k, rod, l, and bent lever, m, serve to bring about
a motion in the opposite direction, and which disengages the drum, g,
from the disk, e, and lets the hammer fall; the drum being then able
to turn freely. If the lever, k, be afterward raised again, the
spring, i, will act anew and couple the drum with the driving-shaft,
so that the hammer will be lifted. In this rotary motion the screw, f,
turns or re-enters into its nut, which it displaces toward the left,
since it cannot itself move in that direction until the rectilinear
motion be wiped out, and the power of the spring be thus overcome. At
the same moment, the screw should naturally also make this rectilinear
movement forward, that is to say, the coupling would be disengaged, if,
at the least lateral motion toward the right, the spring, i, did not
push the system toward the left. There is thus produced a state of
equilibrium such that there is just enough friction between the disk,
e, and the drum, g, to keep the hammer at rest and suspended.
Through the action of an external force which lowers the lever, K, the
hammer at once falls, and the screw issues anew from its nut and brings
the parts into their former positions.

[Illustration: MEIER'S DRIVING GEAR MECHANISM FOR LIFT HAMMERS.]

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DE JUNKER & RUH'S MACHINE FOR CUTTING ANNULAR WHEELS.