The article never says "The world does not need locks." The article says, "In Erlang, given that there is no shared state, Erlang programs have no need for locks." Locks are one way of achieving concurrency by sharing mutable state. Erlang achieves concurrency by passing messages instead of sharing state.
A gas stand is just a place to get gas. How people decide to make sure only one person is using it at a time is a separate matter. In a shared state language, you might have one gas stand instance that you lock when you want to use it. In a message passing language, you could send a message to the gas stand process "Is someone using you?" and the gas stand will reply yes or no. You can achieve the same basic goal either way.
You might be wondering, "That sounds like a lock to me!" The important distinction is, there is exactly one process responsible for each piece of state in Erlang, but any number of threads can influence on piece of state with mutable locked data. If the gas stand state gets corrupted with locking semantics, you don't know what thread broke it. In Erlang, you can see every message that comes into the process responsible for that data, and see what messages are damaging it. It might sound like a useless distinction, but believe me, it makes concurrency much easier to deal with.