Sans Normal Kolih 7 is a bold, normal width, low contrast, italic, normal x-height font visually similar to 'Glober' by Fontfabric (names referenced only for comparison).
Keywords: headlines, posters, branding, sportswear, packaging, sporty, dynamic, modern, assertive, energetic, impact, motion, modernity, promotion, clarity, oblique, rounded, geometric, compact, high impact.
A heavy oblique sans with rounded geometry and smooth, low-contrast strokes. Curves are built from clean circular/elliptical forms, while terminals are softly finished, keeping counters open and shapes sturdy. The slant is consistent across capitals, lowercase, and numerals, giving a forward-leaning rhythm; spacing reads a bit compact in text, emphasizing density and punch. Numerals are broad and stable, and the overall silhouette stays uniform and well-controlled without decorative detailing.
Best suited to short, high-impact settings like headlines, posters, and promotional copy where the slant can add urgency and motion. It also fits branding and packaging that want a modern, energetic voice, particularly in athletic or action-oriented contexts. For extended reading, it will work more comfortably at larger sizes or with generous line spacing.
The font conveys speed and momentum through its pronounced slant and dense, confident shapes. Its rounded construction keeps the tone approachable rather than aggressive, but the weight and angle still read as promotional and high-energy. Overall it feels contemporary and performance-oriented.
The design appears intended to deliver a fast, contemporary sans look with a strong forward drive. Rounded, geometric construction and consistent oblique stress suggest an emphasis on clarity and impact rather than nuance, optimized for attention-grabbing typography.
In the grid, many forms lean toward simple, robust bowls and open apertures, supporting quick recognition at display sizes. The oblique angle and substantial stroke weight create strong word shapes, though longer passages can feel visually intense due to the sustained density.