I realized some time after I posted that you don’t want to use right ascention and declination for this. Instead you have to convert to ecliptic coordinates and look for stars with low declination in that coordinate system.
Unfortunately unbound Earth’s velocity would be far less than the galactic escape velocity, and so we’ll be roaming forever on the outskirts of the Milky Way, and not visiting fun places like Triangulum galaxy. 
I almost mentioned it in my above post. One of my favorite short stories ever.
Thanks for the figures, Machine Elf! I knew it would be a lot, but that really puts it in perspective.
Cool! Thanks!
Understatement of the day.
Good point: we can’t guess where the Earth will intercept other stars by assuming a straight path. Our Delta Vee with respect to the Sun’s orbit around the galaxy center will be small (about 0.5%) , so we’ll stay in pretty much the same orbit neighborhood.
I’m almost curious enough to find out what the angular difference is between the ecliptic and the galactic plane, which would help define the possibilities of what direction we might get started. In any case, we’ll oscillate through the galactic plane (as we do now.) From here, an interesting tidbit:
Imagine the view! I wonder how that might have affected Aristotle’s celestial concepts. I’m rather sorry humanity was timed to miss it. Lucky for me, I can see artists conceptions and computer reconstructions (not to mention, great photos of Andromeda.) But imagine just looking up and seeing it!