I have decided to call this sequence $\Theta_n$ for the triangular-harmonic number sequence because it clearly has properties related to both triangular and harmonic numbers.
I had been studying it by using the recursive definition $$\Theta_0 = 1\mid\Theta_n = \Theta_{n-1} + \frac{1}{\lfloor\Theta_{n-1}\rfloor}$$
The simplest closed form of the sequence is
$$\Theta_n = \frac{T_n^{-1}}{2} + \frac{n}{T_n^{-1}} + \frac{1}{2} \mid n\geq1$$ with $$T_n^{-1}=\lfloor\sqrt{2n}+\frac{1}{2}\rfloor$$ being the inverse triangular number function. I have been researching its many fascinating properties.