Protection against UV rays is an increasingly important factor in everyday life. We can protect ourselves with many different ways, but the simplest one is by clothing. That is why it is also important that we can predict the UV protection properties of textiles from which we intend to make clothes even before we make this garment. The aim of this research was to develop a method by which we could measure the UV permeability of the various yarns and on the basis of the data set a theoretical mathematical model that will enable predicting the UV protection properties of textiles. Our goal was that we could develop a simple and fairly reliable method for measuring UV properties (transmission, absorption and reflection) of various types yarns, then these known UV properties would be taken into account in developing the model for advance theoretical predicting of permeability of UV rays of textiles. Which could mean that we could determine what kind of protection would be provided by the final garment only by knowing the properties of used yarn. We took a rotary polyester yarn with density of 34 tex and different number of turns and used it to make samples in the desired densities, where we had a 2 × 2 cm floating threads in the direction of the warp, which were then removed and what was left in the direction of the weft was yarn on which we then measured the permeability and UV reflection on one layer and then on two layers on the spectrophotometer (which simulated a fabric). The transmission and reflection of UV rays was measured in accordance with standard SIST EN 13758 – 1: 2002, in 2-nm step and in the range from 200 to 700 nm, but for the evaluation of data itself, we used the range from 290 nm to 400 nm. From the measurements we first calculated the cover factor, from which we then calculated and compared the measured and the calculated values of UV transmission on the samples.