Note the page you linked, which says that this module matches in interface (and implementation, at least in the case of one particular version) to the one at http://rubydoc.info/stdlib/securerandom/1.9.2/SecureRandom where you can find more details.
There is no inherent uniqueness in the results of such calls. Of course, given that the system is seeded well and is pseudorandom as claimed, the chance of collisions should be as small as suggested by combinatorics. This is the "Birthday Paradox", and in particular the chances of a collision correspond to a chances of a successful "Birthday Attack" ( http://en.wikipedia.org/wiki/Birthday_attack ), and you can find more details on Wikipedia. Not to say that practical pseudorandomness gives strict guarantees, but it would be believed to come close.
If you specifically need uniqueness, you need to enforce this yourself. This is not so easy to do, and you need to be careful that you are achieving the conditions you expect. You also need to be sure that you are covering all possibilities, and that if you do -- on relatively rare occasion -- generate a duplicate token, you can handle it.