Sans Normal Ihkil 10 is a regular weight, normal width, monoline, upright, short x-height font visually similar to 'JollyGood Sans' by Letradora (names referenced only for comparison).
Keywords: children’s, packaging, posters, headlines, branding, playful, friendly, casual, youthful, informal, approachability, warmth, informality, handmade feel, display clarity, rounded, soft, bouncy, hand-drawn, chunky.
A rounded, monoline sans with softened terminals and subtly irregular geometry that suggests a hand-drawn origin. Strokes keep a generally even thickness, while curves are generously inflated and corners are consistently blunted, creating a smooth, pill-like silhouette. Proportions are compact with wide, open counters; circular forms (O, o, 0) read as near-oval and slightly squashed, and overall spacing feels airy and forgiving. The alphabet shows gentle inconsistencies in stroke joining and curvature that add warmth without breaking legibility.
This face works best for short-to-medium text where a friendly personality is desirable: children’s materials, casual branding, packaging, posters, social graphics, and cheerful headings. It can also support brief UI labels or signage where warmth matters more than strict neutrality.
The tone is approachable and lighthearted, with a kid-friendly, conversational feel. Its soft forms and rounded endings evoke friendliness and ease rather than precision or formality, making it feel relaxed and upbeat.
The design appears intended to deliver an approachable, hand-made sans look with rounded, soft forms that remain broadly legible. Its mild irregularities and inflated curves aim to add charm and informality while keeping a clean, modern footprint for display-oriented use.
Capitals lean toward simple, archetypal shapes with a notably round ‘S’ and a broad, open ‘G’. Lowercase forms stay uncomplicated and readable, with single-storey constructions where applicable and soft, bulb-like terminals that maintain a cohesive rhythm. Numerals are rounded and informal, matching the alphabet’s cushioned geometry.