Rhinoviruses are one of the most common causative agents of respiratory infections in humans and represent a high public health and socioeconomic burden. To address these issues, understanding the clinical and epidemiological features of rhinoviruses is essential, but this information is limited. The aim of our longitudinal study was to collect sufficient, statistically relevant, scientific data for a comprehensive understanding of the molecular epidemiology of rhinoviruses. Over the period of eight years, nasal and throat swabs from a total of 20.425 patients with acute respiratory infection, from all age groups, examined in primary health care clinics and in hospitals were tested in the national programme for the surveillance of influenza like illnesses and acute respiratory infections. Infections with a rhinovirus were confirmed by an RT-rPCR in 1834 patients and 1480 rhinoviruses were genotyped by the phylogenetic analysis of their partial VP4/VP2 nucleotide sequences. Information on genotype diversity was linked to standardised demographical, clinical, epidemiological, and meteorological data. We described the year-round circulation of rhinoviruses with varying intensity resulting in two seasonal waves, in spring and in autumn, with confirmed high levels of genotype diversity. We confirmed a statistically relevant correlation between genotype diversity in patients of different age groups and between patients examined in primary health care clinics and in hospitals. We confirmed a negative correlation and a statistically relevant effect of the average temperature on rhinovirus circulation. We identified genotypes causing a potentially higher public health burden (those that were present in higher proportions, with higher frequencies, in all age groups, exclusively in patients from hospitals). New information collected in the present longitudinal study supports a precise description of the molecular epidemiology of rhinoviruses and the development of public health prevention strategies to contain their burden on society. In the future, this development should be linked to the integrated virological and epidemiological surveillance of respiratory infections.