Two silicon diodes in series should be able to drop the required 1.2V (or a little bit more) from 18V to ~16.8V when charging.
When discharging, a Schottky diode in antiparallel will let the current flow back out of the Lithium battery circuit with only a small voltage drop.
Something like this:
simulate this circuit – Schematic created using CircuitLab
This assumes that the same wire is used for charging and discharging, and that the circuits behave as you have described.
In the real world you may or may not need to tweak some additional things to make it work, but in principle this should do it.
Take care to use diodes that can take the necessary current and dissipate the power.
The Schottky diode should have as low a voltage drop as possible. The reverse breakdown voltage of the Schottky doesn't need to be very high though, since the regular diodes are limiting that voltage.