Consumer equipment, commercial 3D printers and open source software have been successfully used to design and develop a single shot HSI which operates from 400 nm to 1052 nm, its highest spectral performance has been observed from 415 nm to 920 nm. It is capable of extracting up to 315 wavebands to measure transmittance, for reflectance applications, it obtains more accurate results when the hyperspectral image contains 64-105 evenly separated wavebands. The spectral accuracy is remarkable and the spatial resolution is robust enough, nevertheless, the spatial resolution was influenced by the texture in the diffraction grating and it is an opportunity for future works. Unlike the related works, the proposed HSI has a fixed optical system that only needs to be calibrated once, in addition, its total weight is up to 300 g, therefore, this device is portable, reusable and lightweight. Mounting the proposed HSI from scratch has a cost of up to 1.5% of the cost of commercial devices with similar characteristics; In addition, this price could be reduced by an additional 50% if you replace the used front lens with a cheaper one. This paper provided a repository containing all 3D printable models, an executable calibration software, source code, detailed description of each required component available online, and video tutorials with instructions for replicating the proposed HSI.