First, do you absolutely need to return by reference? Returning by value would probably be easier, since you could do that at any time without having to change the internal state of the Variant object.
If you absolutely do need to return by reference, then you need to have a valid memory location to return a reference to. (So for example, returning a reference to a stack object is no good, because the stack object would be gone when the ToXXX() method returns, and the reference would be a reference to invalid memory)
The easy way to do that would be to include a (mutable?) member variable of each type in your Variant object, and set that member variable's value and return a reference to it as necessary. Of course that downside of that is that it makes your Variant objects as large as the sum of all the possible objects, but that might be okay if you don't care much about memory usage.
If you do care about minimizing memory usage of your Variant objects also, then you'll probably need to use a union (or something equivalent to one). C unions will work for POD types, but if you need to include non-POD types (e.g. std::string objects) they won't be sufficient. If you need that, you can go with a byte-buffer (that is large enough for the largest possible type to fit into) and using placement-new and explicit destructor calls when necessary, but it is a bit fiddly to implement.
As far as the actual conversions of data types go (e.g. "7" -> (int)7 -> (double)7.0, you'll simply have to implement logic (perhaps via nested switch statements?) to do the right thing for each possible pair of "source" and "destination" types. I don't think there is any magic way around that, short of using boost functionality where it has been done for you.