Sans Normal Pinok 2 is a very bold, wide, low contrast, italic, normal x-height font visually similar to 'Siro' by Dharma Type; 'Acto' by Monotype; and 'Fuse', 'Fuse V.2', 'Fuse V.2 Printed', and 'Gardenia' by W Type Foundry (names referenced only for comparison).
Keywords: posters, headlines, sports branding, packaging, app promos, sporty, energetic, playful, confident, contemporary, impact, emphasis, motion, approachability, branding, rounded, soft corners, oblique, chunky, compact counters.
A heavy, oblique sans with broad proportions and rounded geometry. Strokes are thick and even, with softened corners and generous curves that give letters a molded, high-impact silhouette. Counters are relatively tight in letters like B, e, and 8, while verticals and diagonals maintain a consistent rhythm that reads clearly at display sizes. The lowercase shows single-story forms (notably a and g), compact terminals, and a sturdy, slightly compressed interior space that reinforces the dense, poster-friendly color.
Best suited for headlines and short-form messaging where strong presence matters: posters, promotional graphics, sports and fitness branding, packaging callouts, and digital hero text. The dense color and rounded construction help it hold up in large sizes and high-contrast layouts, while the slant adds momentum for emphasis.
The overall tone is bold and upbeat, with a sporty, punchy feel driven by the slant and chunky rounded forms. It comes across as friendly and approachable rather than technical, suggesting motion and emphasis without sharp aggression.
Likely designed to deliver maximum impact with a friendly, contemporary voice—combining a strong display weight with rounded, simplified forms and a consistent oblique stance for a sense of speed and energy.
Numerals are strong and blocky with smooth rounding, keeping the same visual weight as the letters. The oblique angle is consistent across uppercase, lowercase, and figures, and the shapes stay clean and uncluttered, favoring simple construction over detailed modulation.