It's not natively static because "random" numbers in .Net aren't truly random - they're "psuedo-random", meaning they're random enough for statistics, but not random enough for cryptography. That is, they're evenly distributed across a range, but given the seed parameters, you can predict what the next "random" value will be. That's why you have to instantiate the Random class (like you're doing above) to get a random number - you need to create a new instance, seed it (which it does using the current timestamp, if you don't manually seed it), and then get the "Next" random value. If you seed the Random class with the same value, it will yield the same series of "Random" numbers - using the system time as the seed is pretty effective, as it's always changing, but it's guessable pretty easily.
Having a static "Random" class like this is one way to get a random value without instantiating a new object every time you need it, but all you're doing here is instantiating a new copy anyway. A way to do this more effectively might be something like:
static readonly Random r = new Random();
public static Int32 GetNext(int maxValue)
public static Int32 GetNext()
This way, you're only instantiating once, and you'll continue to reuse that instance - each time you want a new random number, just call the GetNext method on the static class (either specifying an upper bound or not), and you'll get a new number.