This is very vague, it isn't clear at all what your wrapper does. In general, getting a DLL loaded into a process puts a lock on the file. This lock is created as a side-effect of Windows mapping the DLL into the process' virtual memory address space, the underlying system object is a memory-mapped file. Which will make any attempt to overwrite the file while updating it fail.
You should not have to do anything special in the "when the application is closing" case, that will get your DLL unloaded as well and releases the lock on the file.
The more typical problem is that you have no control at all over the process that loads the DLL. Your update cannot complete until that process has terminated. And clearly a DLL should never be in the business of forcibly terminating the host process, it cannot possibly judge what kind of damage that's going to do. A possible wrapper approach is one that has an entrypoint for every exported function that delegates the call to the real DLL. Whose entrypoints were found with GetProcAddress(), you can now use FreeLibrary() to get the real DLL unloaded so you can update it. That's very painful and error-prone when the DLL isn't trivial, you need a function pointer declaration for every exported function and use strings instead of function names. Maintenance is pretty brutal.
One possible alternative approach is the detail that the lock on the DLL is on the file data of the DLL, not on the directory entry. Which allows you to rename the file while it is loaded. Your update can now write the updated version with the same name. The next time the program starts, it will use your update. This is however not completely reliable, clearly the program will fail to start just as you are applying the update. Consider using a hard-link to avoid that failure mode.